Downloaded from orbit.dtu.dk on: Sep 27, 2021
Heat of Absorption of CO2 in Aqueous Solutions of DEEA, MAPA and their Mixture
Waseem Arshad, Muhammad; von Solms, Nicolas; Thomsen, Kaj; Svendsen, Hallvard F.
Published in: Energy Procedia
Link to article, DOI: 10.1016/j.egypro.2013.06.029
Publication date: 2013
Document Version Publisher's PDF, also known as Version of record
Link back to DTU Orbit
Citation (APA): Waseem Arshad, M., von Solms, N., Thomsen, K., & Svendsen, H. F. (2013). Heat of Absorption of CO2 in Aqueous Solutions of DEEA, MAPA and their Mixture. Energy Procedia, 37, 1532-1542. https://doi.org/10.1016/j.egypro.2013.06.029
General rights Copyright and moral rights for the publications made accessible in the public portal are retained by the authors and/or other copyright owners and it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights.
Users may download and print one copy of any publication from the public portal for the purpose of private study or research. You may not further distribute the material or use it for any profit-making activity or commercial gain You may freely distribute the URL identifying the publication in the public portal
If you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediately and investigate your claim.
GHGT- Conference Programme
11th International Conference on Greenhouse Gas Control Technologies CCS: Ready to Move Forward 18th - 22nd November 2012 Kyoto International Conference Center - Japan
GHGT- Conference Programme
11th International Conference on Greenhouse Gas Control Technologies CCS: Ready to Move Forward
18th - 22nd November 2012 Kyoto International Conference Center - Japan
www.ghgt.info • [email protected] Contents
Steering Committee 4 Steering Committee Welcome 5 As you can imagine, a lot of preparation and Meet The Organisers 6 work goes into the establishment of the GHGT conferences, and a large part of this work is Technical Programme Committee & Expert Review Panel 7 conducted by the Steering Committee. The General Information 8 Steering Committee is comprised of a mix of representatives from the hosts; in the case of Chair and Presenter Guidelines 9 GHGT-11, RITE, and the conference custodians, Social Programme 10 IEAGHG. Plenary Sessions & Keynote Speakers 12 The Steering Committee is co-chaired by Prof. 4 Final Panel Discussion & Closing Session 14 Kaya from RITE and Mr Gale from IEAGHG, and under their leadership the committee Conference Programme at a Glance 15 has arranged the conference, with assistance Oral Sessions at a Glance 16 from the Technical Programme Committee (TPC) who worked from the Expert Review Exhibition Information 18 Panel suggestions to formulate the technical Conference Floor Plan and Room Details 19 programme. Oral Session Details 20 Some committee members perform dual Poster Floorplan 40 roles, such as Prof. Yamaji and Mr Dixon, who co-chaired the TPC, and Mrs Twinning, who Poster Session Details 42 sits on the Steering Committee and acts as Special Thanks 79 secretariat for the TPC. Sponsors / Supporters / Contributors 80
Prof. Yoichi Kaya Mr. John Gale Prof. Kenji Yamaji Mr. Tim Dixon (co-chair) (co-chair)
Mr. Takashi Honjo Ms. Akemi Sasaki Mrs. Siân Twinning Mr. Toby Aiken Welcome
The Steering Commitee would like to take the Building on Previous Success opportunity to welcome you to the 11th International Since its 1992 inception, the conference has grown from Conference on Greenhouse Gas Control Technologies, strength to strength, and we are happy to see this trend and to the beautiful city of Kyoto. As you are no doubt continuing for this 11th event. With recent global economic aware, the GHGT conference series has established itself conditions, there was a fear that delegate numbers and as the premier international platform for the presentation 5 attendance would drop, but despite this, and the more of cutting edge research and the latest developments in remote location for many potential participants, it would CO Capture and Storage technologies, and you are part 2 appear that GHGT-11 has held its place, and continues to of it. be the conference of choice for many researchers. It is When the series started in 1992, CCS was very much a anticipated that GHGT-11 will attract between 1200 and novel concept with limited research at the laboratory 1400 delegtes, demonstrating this continued success. scale underway around the world. Having seen a GHGT-10, held in Amsterdam in 2010 held a very successful significant technological development in recent years, exhibition where delegates were able to get in touch CCS is now at the phase where large demonstration with the exhibitors’ technologies and experiences, and projects operate around the world, which will be enter into free discussions relating to these technologies. followed by commercial deployment. GHGT-11 will also hold an exhibition, to facilIitate To facilitate demonstration and deployment, technology suppliers to get in touch with researchers developments are still needed in the areas of CO 2 again, and hopefully overcome barriers for widescale capture, transportation, storage and the integration deployment, forge new relationships and partnerships of these components, both in terms of reliability and and move CCS technology forward. efficiency. Legal and regulatory frameworks, funding, and communication with stakeholders on CCS will all Social Programme require consideration in the surrounding political and The social programme will comprise of a Welcome financial environments. Reception and registration on Sunday the 18th of This unique situation, with significant technological November, and a Conference Dinner on Wednesday the developments awaiting the final breakthroughs in 21st of November. More information on this can be found the areas outlined above, led to the theme for the on page 10. conference: CCS: Ready to Move Forward.
www.ghgt.info • [email protected] Meet the Organisers About RITE About IEAGHG The Research Institute of Innovative Technology for The IEA Greenhouse Gas R&D Programme (IEAGHG) the Earth (RITE) was established in 1990 as a centre of is an international collaborative research programme excellence to conduct research on technologies for established in 1991 as an Implementing Agreement mitigating global warming, by the joint efforts of the under the International Energy Agency (IEA). government of Japan and Japanese industries. The primary role of IEAGHG is to be an informed The direction of its research activities is in line with the source of impartial information on greenhouse gas concept of the “New Earth 21” plan proposed by the mitigation options. This is achieved by the instigation 6 Japanese government which envisages stabilisation and management of research studies, technological of carbon dioxide concentrations in the atmosphere evaluations, and maintenance of a series of international by developing long term innovative technologies for research networks that serve as a platform for academics, substantial reduction of carbon dioxide emissions. researchers and industrial parties to share information and experiences and to discuss new developments. RITE focusses its attention mainly on the following three areas: IEAGHG studies and evaluates technologies that can reduce greenhouse gas emissions derived from the use of • Bio-refinery technologies for transforming cellulose fossil fuels. The Programme aims to provide its members into biofuels, with definitive information on the role that technology • Technologies for carbon dioxide capture and storage can take in reducing greenhouse gas emissions. (CCS), and • Scenario studies on future paths toward low carbon IEAGHG takes pride in being an informed but unbiased society. source of technical information on greenhouse gas mitigation. RITE has already conducted an experiment in 2003-04 of
storing 10,000 tons of CO2 in the subsurface at a a depth The programme’s main activities are: of one thousand meters in Nagaoka, a city in Northern • To evaluate technologies aimed at reducing Japan, which provided a wealth of useful information on greenhouse gas emissions, the behavior of CO stored deep underground. 2 • To help facilitate the implementation of potential Recognising the international nature of global warming mitigation options, studies, RITE has been conducting research with intense • To disseminate the data and results from evaluation collaboration with international institutions such as studies, and IIASA and DOE in USA. • To help facilitate international collaborative research, development and demonstration activities (R,D&D). RITE also hosted the second International Conference on Carbon Dioxide RemovaI (ICCDR-2) in 1994 and GHGT-6 in 2002 both in Kyoto. Technical Programme Committee and Expert Review Panel The Technical Programme Committee (TPC) is responsible for the content, organization and programming of all the conference technical programme for GHGT-11. Over 1200 abstracts were received, and the initial task of evaluating these fell to the Expert Reviewers. These consisted of over 140 internationally recognised experts from 16 countries, and each abstract was independently reviewed by at least 2 experts. The TPC evaluated these reviews, made decisions on the selection of papers, and allocated them to sessions. This task was extremely intensive. The organisers would like to thank both the TPC and the Expert Reviewers for their outstanding and diligent work; without them, there would be no technical programme for you to enjoy. The TPC was greatly assisted by Mrs Siân Twinning who carried out the TPC secretariat duties. The TPC are listed here, but the Expert Review Panel is too extensive to list in a printed programme, they are thanked 7 all the same and they are listed with gratitude on the conference website: www.ghgt.info.
Prof. Kenji Yamaji Mr. Tim Dixon Prof. Kozo Sato Mr. Chris Hendriks (co-chair) (co-chair)
Dr. Howard Herzog Prof. Sally Benson Prof. Olav Bolland Ms. Peta Ashworth
www.ghgt.info • [email protected] General Information
Cloakroom & Luggage Facilities Wireless Internet The Kyoto International Conference Center has 2 Wireless LAN will be available in the main lobby and cloakrooms on the ground floor where luggage may be outside the conference rooms while in the Kyoto left. All personal belongings must be collected by the Conference Center. end of the day. Language & Translation Emergency Contact Numbers 8 All presentations, plenary, keynote and technical, will be While we will ensure that every aspect of the conference in English, however a subsidy has been made by Global runs without a hitch, if for any reason you are in need of Industrial and Social Progress Research Institute (GISPRI) emergency assistance, the following numbers should be for simultaneous translation of the plenary, keynote and used while in Japan. closing sessions into Japanese. Police: 110 This money has been donated specifically to fund this, and sits outside of the funding for the conference, and Fire Service / Ambulance: 119 is not paid for in any way by delegate registration fees or Public Transport - Getting Around Kyoto sponsorship. The Kyoto International The organisers would like to take this opportunity to Conference Center has its thank GISPRI for this facility, and explain a little about own stop on the Karasuma the organisation. Line, and the stop is GISPRI was established as a public interest corporation Kokusaikaikan (K01) Station. on December 1, 1988, under the provisions of Article 34 Kyoto’s subway system is of the Civil Code and the authorization of the Minister of quick and convenient, and International Trade and Industry. most areas are accessible using the subway. There are Their objective is to conduct research in a broad two lines, one running North- spectrum of issues related to global resources, South; the Karasuma Line, environment, international regimes, industry, economy, and one running East-West; culture and society, based on its awareness that the the Tozai Line. Included in role and responsibility of Japan in the international your registration is a 5 day community has been mounting in tandem with Japan’s pass for the subway, valid for increasing economic and social presence. GISPRI also travel from Sunday the 18th of seeks to present policy proposals based on its research November to Thursday the and surveys for both domestic and international entities, 22nd of November. while promoting exchange of information and ideas to help contribute to the prosperity of the global society. GHGT-11 Blog and Twitter Hashtag More information is available at www.gispri.or.jp For the first time, a GHGT conference has its own dedicated blog site and pre-determined Twitter Hashtag. Orizuru (Folded Crane) The Blog will be regularly updated with interesting This Orizuru created by Japanese traditional origami points raised for discussion, and will hopefully generate paper, is the same one seen flying in the short a lively debate. video screened at the Opening Session. Please use #GHGT11 in your tweets, so that all tweets can The production of the video is also be easily and quickly found and read. We may even use specifically funded by GISPRI. some of these in the Conference Summary Brochure. The Blog can be found at www.ghgt-blog.org and is a Wordpress blog, so either download the Wordpress app to comment on the move, or alternatively, view the blog online, and click the Follow link for new posts to be delivered to your email inbox. 愛・地球博成果継承発展助成事業 一般財団法人 地球産業文化研究所 Chair & Presenter Guidelines Information for Session Chairs For confirmation of board numbers, please see poster board allocations in the poster session details on pages Please take a moment to identify the session you are 42-79. The posters must remain on display until Thursday chairing or co-chairing and identify its location using the afternoon as the posters will be accessible during lunch conference centre map shown on page 19. Please ensure and breaks as well as during the dedicated sessions. that you arrive at your session room before the session commences, to allow the technical assistants to explain To faciliate discussions and conversations with the any specific functionality of the room and to allow poster authors, there are 2 poster sessions scheduled, for 9 session speakers to make themselves known to you. further information, please see the poster floorplan and session details from pages 40 onwards. Information for Speakers in an Oral Session Posters should be removed during the lunch break on Again, using the map shown on page 19, please ensure Thursday the 22nd of November. Any posters remaining you arrive at your designated session room with plenty after 14.00 on this day will be disposed of. Unfortunately of time to spare to ensure that you are familiar with the the organisers are not able to accept any responsibility to presentation and AV equipment in the room, and make store or return to authors posters that remain on display your presence known to the session chairs. past this deadline. Each presentation in the technical parallel sessions is allocated 15 minutes for the presentation, and 5 minutes Greenman Award, 2012 for subsequent questions. All presenters are asked to stick to their allocated time, as the smooth running of The GHGT conference series has a tradition of making an the conference relies on strict adherance to the time award to an individual whose vital contributions towards schedule. The session chair will notify you of how your progressing the CCS technologies, and enhancing our allocated time is progressing, and will manage the time understanding of the process of mitigating greenhouse allocated to questions. gas emissions, is recognised. Presenters are asked to upload their presentations no The 2012 Greenman Award recipient has been identified, later than the day before your scheduled talk; note that and the award will be made at the conference dinner on if you are due to present on Monday the 19th, you will be Wednesday the 21st. required to upload your presentation on Sunday the 18th at the registration and welcome reception. Former recipients of this prestigious award are: Information for Poster Presenters Meyer Steinberg; 1996 Presenters of posters are required to locate their allocated Wim Turkenburg; 1996 poster board and ensure that their poster is mounted by Yoichi Kaya; 1996 the end of Monday in preparation for the poster sessions on Tuesday and Wednesday. Olav Kårstad; 2006 The event hall will be open between 09.00-17.30 on William D. Gunter; 2008 Monday the 19th of November for presenters to mount Howard Herzog; 2010 their poster. You will be provided with push pins to allow you to mount your poster, and these will be available Peter Cook; 2010 from the administration desk within the poster hall.
www.ghgt.info • [email protected] Social Programme
The GHGT-11 Steering Committee have organised a 2-part social programme for the conference, commencing with a Welcome Reception, and concluding with the Conference Dinner.
Welcome Reception, Sponsored by the Global CCS Institute
The Welcome Reception will run alongside the conference registration on the evening of Sunday the 18th of November, at the Hotel Granvia Kyoto. 10
The Hotel Granvia Kyoto, Registration & Welcome Reception, Sunday 18th November, 17.30 - 21.00
The Registration and Welcome Reception opens from 17.30 until 21.00 on the 18th of November. Any delegate who is unable to attend the reception can obtain their badge and delegate pack each morning at the conference venue. The Welcome Reception gives delegates a chance to listen to a few select speakers, welcoming you all to the conference and to Kyoto itself. Delegates will also have ample opportunity for networking, to reaquaint with old contacts, and forge new relationships for the future. The reception will include a welcome address by John Gale of IEAGHG. This will be followed by adresses by the Kyoto Prefectural Governor and the Kyoto City Mayor. Brad Page of the Global CCS Institute will then address the delegates which will be followed by a traditional Kagami-Biraki Ceremony. This involves a ceremonial mallet being used to break the seal of a Japanese Sake barrel. The delegate pack will also include your 5-day Kyoto subway pass, so be sure to keep this safe as it will faciliate easy travel between the conference venue, your hotel and the beautiful city of Kyoto. Conference Dinner
The Conference Dinner for GHGT-11 will be held in the Westin Miyako Hotel Kyoto, which stands on the Higashiyama Hills, to the East of the city, overlooking the beautiful ancient capital. Please use your subway pass to reach the hotel which is located close to the subway Keage (T09) station. The use of buses or taxi’s is not recommended due to heavy traffic. The Conference Dinner is traditionally the highlight of the social programme, and this year it promises to be no different. The relaxed evening provides ample opportunities to reflect on the previous 3 days of successful presentations, and to indulge in a spot of local culture. It also provides a relaxed environment in which to unwind a little and continue to network with colleagues and contacts old and new. 11
The Westin Miyako Hotel Kyoto, Conference Dinner, Wednesday 21st November, 19.00 - 22.00
There will be a few short presentations and speeches to accompany the dinner, and you are encouraged to come along and celebrate the sucess of the conference. The Conference Dinner will also be the point at which the Greenman Award is presented for GHGT-11. GHGT-11 Student Reception As with previous GHGT events, the Student Reception Invitations to this event will be restricted to students of enables students to meet and discuss what they have the GHGT-11 Student Mentoring Programme, IEAGHG heard with their peers, as well as selected industry International CCS Summer School Alumni, invited experts to help to build the blocks for their future careers students registered for GHGT-11 and selected experts within CCS and to forge new connections and business from industry and academia, chosen to encourage contacts. student-expert networking and collaborations. The GHGT-11 Student Reception will be held in the The evening will include an informal introduction and Banquet Hall Swan of the Kyoto International Conference welcome to the students on behalf of IEAGHG, a keynote Center on the evening of the 20th of November, between presentation from an industry expert and further 18.00 and 20.00. networking with refreshments available.
www.ghgt.info • [email protected] Plenary Sessions & Keynote Speakers
Monday 19th November, 09.00 - 11.00 Chair: Dr. Kelly Thambimuthu, Chair of IEAGHG ExCo ‘CCS Projects are Becoming Reality - the USA Demonstration Program’ Welcome Addresses: Dr Jay Braitsch, Senior Advisor, Professor Yoichi Kaya, President, RITE Office of Fossil Energy USDOE. Graduating from the University of Jay has worked in various program Tokyo in 1957, Professor Kaya joined offices including fossil, renewable, RITE in 1998 as Director General and nuclear and energy efficiency. Current became the President in 2011. He activities focus on a variety of cost- specialises in system engineering in reduction CO2 capture/utilisation 12 the fields of energy and environment, technologies, as well as safe and and has a particular interest in global permanent CO2 storage. Jay earned warming issues. a BS in Electrical Engineering from Cornell University, and a PhD in Systems Mr Koichi Akaishi, METI Engineering from Ohio State University. Mr Akaishi is the Deputy Director Tuesday 20th November, 08.30 - 09.20 General for Global Environmental Chair: Mr. John Gale, General Manager, IEAGHG Affairs at METI. In a long and impressive career history, he has held several other Technical Plenary Speakers Director level positions within METI, ‘A Global Vision for CCS - Revisitng the IEA CCS Roadmap’ as well as for JETRO based in Brussels. He graduated with an LLB from the Mr. Juho Lipponen, Head of CCS Unit, IEA University of Tokyo, and will give a Juho manages a team of six specialists welcome address on behalf of the host analysing various aspects of CCS, government. from technical and economic issues Keynote Talks: to policies, incentives and regulatory frameworks. Prior to joining the IEA, ‘Aiming for True Harmony between Energy and the Mr Lipponen worked for the European Environment’ power industry federation, Eurelectric, Mr Atsutoshi Nishida, Chairman of the Board, TOSHIBA. as Head of the Energy Policy and Power Production Unit. Mr. Nishida joined Toshiba Corporation in 1975, and following assignments ‘The Global Gas Supply Revolution - Scale, Cost and the that included serving as Senior Implications for CCS’ Vice President of Toshiba Europe Dr. Francis O’Sullivan, Executive Director, Energy and President of Toshiba America Sustainability Challenge programme, MIT Information Systems, he was appointed President and Chief Executive Officer of Frank’s research interests span a range Toshiba in 2005. of topics related to energy systems and energy economics. His current work is ‘International Progress on CCS: Current Status and focused on the energy-water nexus, Recommendations for the Future’ and on unconventional oil and gas Mr Brad Page, CEO, Global CCS Institute resources, particularly the production dynamics and associated economics Prior to his role at the Institute, Brad of North America shale plays. Prior to served as CEO of the Energy Supply joining MIT, he acted as a consultant Association of Australia, and also with McKinsey & Company. served as an active member of the Australian Government Business Roundtable on Climate Change, the CSIRO Energy Transformed Flagship Advisory Committee, and the Australian Government Energy White Paper High-Level Consultative Committee. Wednesday 21st November, 08.30 - 09.20 Thursday 22nd November, 08.30 - 09.20 Chair: Mr. Tim Dixon, Manager: CCS & Regulatory Chair: Mr. John Gale, General Manager, IEAGHG Affairs, IEAGHG Technical Plenary Speakers 13 Technical Plenary Speakers ‘Overview and Recent Developments on CO2 Transport ‘GHGT 101: Carbon Storage in Japan’ Infrastructure’ Dr. Kozo Sato, Director, Frontier Chris Hendriks, Managing Consultant, Ecofys Research Centre for Energy and Chris Hendriks is an international Resources, The University of Tokyo consultant on sustainable energy. He Studying at the University of Tokyo, and received his PhD in 1994, with a thesis
Stanford University, Dr. Sato gained on CO2 removal from coal-fired power first his B.E. degree, then a Ph.D. in the plants. He was an initiator of the ICCDR Petroleum Engineering Department. conference series which later merged He went on to work for the Teikoku Oil to form the GHGT conference series. Company, before joining the University He works as an advisor in the field of of Tokyo, first as an associate professor, then a full CCS, renewables and energy efficiency professor, where he remains as Director of the Frontier for both government and private Research Centre for Energy and Resources. organisations.
‘Deployment of CO2 Capture Technology in Energy ‘Beyond Kyoto - More Effective Framework for Climate Intensive Industry - Challenges Ahead: A Case Study for Change’ the Steel Industry’ Keigo Akimoto, Chief Researcher and Group Leader of Henk Reimink, Executive Director, Energy Sustainability the Systems Analysis Group, RITE Challenge Programme, World Steel Association Keigo holds a Ph.D. and is a guest Henk joined the World Steel Association professor of the Graduate School of Art in November 2008 being accountable and Science, University of Tokyo, and a for all activities on Safety and Health, lead author of Working Group III of the manufacturing processes and systems Intergovernmental Panel on Climate in the iron and steel industry value Change (IPCC) for the 5th assessment chain and Climate Change mitigation reports. He is also a member of several techniques as well as a global regulatory advisory committees on energy and overview. environmental policy for Japanese government.
www.ghgt.info • [email protected] Final Panel Discussion and Closing Session
14 Final Panel Discussion, Closing Session, Thursday 22nd November, 14.00 - 15.30 Thursday 22nd November, 15.30 - 16.00 ‘As a Countermeasure to Global Warming - Best Mix This session will be co-chaired by Mr John Gale and on Energy Portfolio and Enhancing International Professor Yoichi Kaya, representing the co-hosts of the Cooperation’ GHGT-11 conference. The final panel discussion for GHGT-11 will be chaired by The closing session of a GHGT conference traditionally Professor Kenji Yamaji, and will address the topic above consists of notes of thanks being presented, and a by discussion with a panel of leading experts. simple conclusion of key points and themes that have emerged over the past few days technical presentations. Panelists: Reflections on advances, and developments will be • Juho Lipponen, Head of CCS Unit, IEA, France highlighted, and the conference will be formally called • James Edmonds, Laboratory Fellow and Chief to a close. Scientist, Joint Global Change Research Institute, PNNL, USA The last part of the closing session will comprise of an • Jiang Kejun, Director for Energy System Analysis invitation, made by the hosts of GHGT-12 which will be and Market Analysis Center, Energy Research held in 2014. Institute, China The new hosts will make a short presentation on their • Takeo Kikkawa, Professor, Graduate School of home venue, and invite delegates to return in 2 years Commerce and Management, Hitotsubashi to continue to maintain the strong name of the GHGT University, Japan Conference Series. A short video will be shown, which • Yoshiharu Tachibana, Research Advisor, Central will showcase the host city, and give delegtes a taste of Research Institute of Electric Power Industry, what to expect in 2014. CRIEPI, Japan Conference Programme at a Glance
Sunday 18th Monday 19th Tuesday 20th Wednesday 21st Thursday 22nd November November November November November
07.45 - 09.00 08.00 - 08.30 08.00 - 08.30 08.00 - 08.30 Registration & Registration & Registration & Registration & Coffee Coffee Coffee Coffee 15 08.30 - 09.20 08.30 - 09.20 08.30 - 09.20 09.00 - 11.00 Plenary Session Plenary Session Plenary Session Welcome & Keynote Address 09.30 - 10.50 09.30 - 10.50 09.30 - 10.50 Technical Technical Technical Session 4 Session 7 Session 10
11.00 - 11.30 10.50 - 11.20 10.50 - 11.20 10.50 - 11.20 Coffee Break Coffee Break Coffee Break Coffee Break
11.30 - 12.50 11.20 - 12.40 11.20 - 12.40 11.20 - 12.40 Technical Technical Technical Technical Session 1 Session 5 Session 8 Session 11
12.50 - 14.10 12.40 - 13.40 12.40 - 13.40 12.40 - 14.00 Lunch Lunch Lunch Lunch
14.10 - 15.30 14.00 - 15.30 Technical Final Panel Session 2 13.40 - 15.40 13.40 - 15.40 Discussion Poster Session A Poster Session B 15.30 - 16.00 15.30 - 16.00 Coffee break Closing Session
16.00 - 17.20 15.40 - 17.20 15.40 - 17.20 Technical Technical Technical Session 3 Session 6 Session 9
17.30 - 21.00 19.00 - 22.00 Registration Conference Dinner, & Welcome Reception, Hotel Westin Miyako Granvia Kyoto Kyoto
www.ghgt.info • [email protected] 16 Oral Sessions atOral aGlance Sessions
Thursday Nov 22nd Wednesday Nov 21st Tuesday Nov 20th Monday Nov 19th Technical 10 Session Technical 11 Session Technical 9 Session Technical 6 Session Technical 8 Session Technical 4 Session Technical 5 Session Technical 3 Session Technical 2 Session Technical 7 Session Technical 1 Session 09.30 -10.50 09.30 -10.50 09.30 -10.50 16.00 -17.20 15.40 -17.20 15.40 -17.20 14.10 -15.30 11.20 -12.40 11.20 -12.40 11.20 -12.40 11.30 -12.50 Session Theme Key ThemeSession Negative CO Emissions Capture Policy 2 Environmental Impacts Trapping Mechanisms: Reservoir Engineering: Reservoir Scale FlowScale & Transport Pressure Management Experiences andCase Site Characterisation Modelling: Reservoir Reservoir Modelling: Risk AssessmentRisk & AssessmentRisk & Demonstration & Storage Capacity Commercial Management II Management Management I Management of CO Discussion CO Pilot Projects Case Studies Monitoring: Monitoring: Storage & Selection Issues Main Hall Main Stream A Panel 2 Studies Injectivity 2 Storage Demonstration Integrated Integrated Transport Systems Environmental Aerosol Solvent Fundamentals Solvent Alternatives Two-Phase Solvents Advanced Solvents Chemical Looping Post-Combustion: Post-Combustion: Post-Combustion: Post-Combustion: Post-Combustion: Post-Combustion: Post-Combustion: Post-Combustion: Post Combustion: Sorbent SystemsSorbent Characterisation Solvent Pilots Environment Modelling Stream B Room A Room Design Utilisation of Education Indsutrial Indsutrial Sources CO 2 Demonstration Projects: Demonstration Projects: Demonstration Projects: Emerging Technologies System Integration II: System Integration I: Policy Related Issues Capture & TransportCapture Other Storage Other CCS &Geothermal Post-Combustion Projects: USRCSP Projects: Storage Legal Issues Perception Demonstration Demonstration Power Systems Infrastructure Negative CO Policy: Other Policy: Options Public Room B-1 Room Stream C Capture 2 Room D Room B-2 Room C1 Room E Stream D Stream E Stream F Stream G
Tech. Assessment I: Techno-Economic Cost & Risk Comparisons Wellbore Integrity Industrial Sources
Modelling: Tech. Assessment II: Membranes Nano Scale to Core Industrial Sources Operational Flexibility Scale 17 Panel Discussion: Enhanced Hydrocarbon Modelling: CCS in Asia Recovery I Managing Uncertainty Commercial Issues
Panel Discussion: Enhanced Hydrocarbon Monitoring: Costs of CCS Recovery II Pressure Methods Retrofitting
Panel Discussion: Post-Combustion: Reservoir Engineering: Transport & Renewable Environmental Multi-Phase Flow of CO2 Energy & CCS Nitrosamine & Brine Infrastructure Oxy-Combustion: Panel Discussion: Combustion Legal & Regulatory Transport & Weyburn-Midale Fundamentals Infrastructure
Panel Discussion: Capture Pre- Monitoring: Policy: CCS Demonstrations Combustion: Process Geochemical Methods Emissions Trading
Panel Discussion: Monitoring: Storage Capacity Novel Systems Geophysical Imaging Education
Public Perception: Oxy-Combustion: Trapping Mechanisms: Transport & Communication CO Processing Unit Geochemical Infrastructure Activities & Experiences 2 Trapping Mechanisms: Public Perception: Pre-Combustion: Capillarity & Other Underground Social Science Research Technology Heterogeneity Storage Options Risk Management: Oxy-Combustion: Contingency Planning System Integration III: Ex-Situ Mineralisation Other of CO Large Scale & Remediation 2 Implementation
www.ghgt.info • [email protected] Exhibition Information
The GHGT-11 exhibition aims to facilIitate networking between technology suppliers and researchers, and provides an opportunity for partnerships and agreements to be forged for the future. Sponsors are also allocated a booth in the exhibition hall. The Exhibition will be held in the Banquet Hall Sakura, located close to the main hall. Sponsors, Supporters and Organisers Booths Exhibiting Companies and Organisations Booths • S-01 IEAGHG • E-01 Central Research Institute of Electric Power • S-02 Research Institute of Innovative Technology Industry (CRIEPI) for the Earth (RITE) • E-02 Japan CCS Co., Ltd. • S-03 GLOBAL CCS INSTITUTE • E-03 Korea Electric Power Corporation 18 • S-04 Schlumberger Carbon Services (KEPCO) • E-04 CO Capture Project • S-05 Hitachi, Ltd. 2 • S-06 Toshiba Corporation • E-05 New Energy and Industrial Technology Development Organization (NEDO) • S-07 Mitsubishi Heavy Industries, Ltd. • E-06 Greenhouse Gases: Science and Technology • S-08 Gassnova / TCM • E-07 Carbon Management Center (CMC) • S-09 JX Nippon Oil & Energy Corporation • E-08 Vattenfall • S-10 JGC Corporation • E-09 International Institute for Carbon-Neutral • S-11 Japan Petroleum Exploration Co., Ltd. (JAPEX) Energy Research (I2CNER), Kyushu University • S-12 Chiyoda Corporation • E-10 Petroleum Technology Research Centre • S-13 IHI • E-11 Nordic CCS Competence Centre NORDICCS / • S-14 Supporters International CCS Research Centre BIGCCS
E-11 E-10 E-09 S-05 S-07 E-03
E-06 E-08
S-04 S-06 E-02 E-04 E-05 Venue: E-07 Banquet Hall Sakura S-14
S-01 S-02 E-01 S-13 S-12
S-03 S-08 S-09 S-10 S-11 Conference Floorplan and Room Details
The GHGT-11 conference will utilise 7 different rooms for the parellel streams of the technical sessions, and the layout of the Kyoto international Conference Center can be seen on the maps below.
TS Indicates the location of Technical Sessions
Event Hall Poster Session Lunch Station 19 Subway Kokusaikaikan 4-2 Station Exit 4-2
TS Room E TS
Room D Banquet Hall Sakura: Exhibition
First Floor TS Main Hall Plenary Session
TS Room C1
Banquet Hall Swan: Lunch
Stream A Main Hall, First Floor Stream B Room A, Second Floor Second Floor Room K Stream C Room B-1, Second Floor TS Stream D Room D, First Floor Room A Stream E Room B-2, Second Floor Stream F Room C1, First Floor TS TS Stream G Room E, First Floor Room B-2 Room B-1
Room K is the PC Preview Centre, where oral paper presenters can upload their presentations
www.ghgt.info • [email protected] Oral Session Details Session 1C - Negative CO2 Session Chairs: Debo Adams Technical Session Global Potential for Biogas Production with CCS 1 Joris Koorneef, Pieter van Breevoort, Paul Noothout, Chris Hendriks, Luchien Luning, Ecofys; Ameena Session 1A - Storage Capacity Camps, IEAGHG Session Chairs: Sally Benson & Zique Xue The Techno-Economic Potential of Integrated Gasification Co-Generation Facilities with CCS, Estimating the Supply and Semand for Deep Going from Coal to Biomass Geologic CO Storage Capacity Over the Course of 2 Hans Meerman, Andrea Ramirez, Wim Turkenburg, st the 21 Century: A Meta-Analysis of the Literature Andre Faaij, Utrecht University James Dooley, Joint Global Change Research Institute; 20 Pacific Northwest National Laboratory Incentivising BECCS in Indonesia Florian Kraxner, Sabine Fuss, International Institute Comprehensive Assessment of Offshore Storage for Applied Systems Analysis; Wolfgang Heidug, Options in The Netherlands International Energy Agency Filip Neele, Cor Hofstee, Rob Arts, Vincent, Outdoor Prototype Results for Direct Atmospheric Vandeeweijer, Manuel Nepveu, Johan ten Veen, Frank Capture of Carbon Dioxide Wilschut, TNO Geoffrey Holmes, Kenton Heidel, Matthew Henderson, Paul Klavins, Kevin Nold, Arvinder Singh, David Keith, Illustrating the Estimation of CO Storage Capacity 2 Carbon Engineering for a Hypothetical Injection Site Guy Allinson, Wanwan Hou, Peter Neal, CO2CRC and Session 1D - Technology Assessment I: Cost and University of New South Wales; John Kaldi, CO2CRC Risk and University of Adelaide; Lincoln Paterson, CO2CRC Session Chairs: Kevin McCauley & Howard Herzog and CSIRO Risk Assessment and Management for CO2 Capture CCU&S via Stacked Storage—Case Studies from and Transport Facilities CO2EOR Basins of the United States Angunn Engebø, Jens Garstad, Hamish Holt, Nada Susan Hovorka, David Carr, Stuart Coleman, Khandaka Ahmed, DNV Zahid, Gordon Smith, Rebecca Smyth, Lesli Wood, The Techno-Economics of CCS in Oil Sands Thermal University of Texas at Austin Bitumen Extraction: Comparison of CO2 Capture Session 1B - Post - Combustion: Solvent Pilots Integration Options Irene Bolea, CIRCE; Guillermo Ordorica-Garcia, Mehr Session Chairs: Prachi Singh & Takayuki Higashii Nikko, Alberta Innovates - Technology Futures; Michiel Carbo, Energy Research Centre of the Netherlands Solvent Development in Post Combustion CO2 Capture-Selection Criteria and Optimization of Examining CCS Deployment Potential in China via Solvent Performance and Environmental Impact Application of an Integrated CCS Cost Curve Karl Anders Hoff, Eirik Falck da Silva, Inna Kim, Andreas Robert Dahowski, Casie Davidson, Pacific Northwest Grimstvedt, SINTEF National Laboratory; Xiaochun Li, Ning Wei, Chinese Academy of Sciences A Guide to Evaluate Solvents and Processes for Post- Potential Cost of Leakage from Geologic Combustion CO2 Capture Paul Mathias, Satish Reddy, Arnold Smith, Kash Afshar, Sequestration in the Michigan Basin Fluor Corporation Melisa Pollak, Jeffrey Bielicki, Elizabeth Wilson, University of Minnesota; Catherine Peters, Princeton Advances in Development of CO Capture Solvent 2 University; Jeffery Fitts, Brookhaven National Lab Paul-Emmanuel Just, Cansolv Technologies Inc Session 1E - Techno-Economic Comparisons Pilot Plant Results with Piperazine Eric Chen, Tarun Madan, Paul Nielsen, Darschan Session Chairs: Jay Braitsch & John Davison Sachde, Lynn Li, Gary T. Rochelle, The University of Post Combustion Capture on Natural Gas Combined Texas at Austin Cycle Plants: A Technical and Economic Evaluation of Retrofit, New Build and the Application of Exhaust Gas Recycle Desmond Dillion, EPRI Performance and Costs of CO2 Capture at Gas Fired Application of Advanced Technologies for CO2 Power Plants Capture from Industrial Sources Neil Smith, Geoff Miller, Richard Gadsden, Indran Matteo Carmelo Romano, Politecnico di Milano; Rahul Aandi, Parsons Brinckerhoff Ltd; John Davison, IEAGHG Anantharaman, SINTEF Energy Research; Antti Arasto, VTT; Hyungwoong Ahn, Maria-Chiara Ferarri, Imp-See, Integrated Techno-Economic and Environmental University of Edinburgh; Jan Wilco Dijkstra, ECN; Dulce Assessments of Amine-Based Capture for Different Boavida, LNEG - Laboratório Nacional de Energia e CO Concentration Gases 2 Geologia Xiangping Zhang, Norwegian University of Science and Technology; Amy Brunsvold, Erik Hognes, Jana Techno-Economic Study of an Integrated Steelwork
Jokobsen, Simon Roussanaly, SINTEF Energy Research Equipped with Oxygen Blast Furnace (OBF) and CO2 Capture Comparison of Costs for Natural Gas Power Lawrence Hooey, Swerea MEFOS; Andrew Tobiesen, Generation with CO Capture 2 SINTEF; Jeremy Johns, Tata Steel UK Consulting Ltd; Philippe Mathieu, Olav Bolland, NTNU Stanley Santos, IEAGHG 21 Session 1F - Wellbore Integrity Temperature Dependence of Heat Integration Session Chairs: Stefan Bachu & Samantha Neades Possibilities of an MEA Scrubber Plant at a Refinery Viktor Andersson, Thore Bersntsson, Chalmers Pre-Injection Baseline Data Collection to Establish University of Technology; Per-Åke Franck, CIT Existing Wellbore Leakage Properties Industriell Energi Andrew Duguid, Robert Busch, Schlumberger Carbon Services; Willian Carey, Los Alamos National Laboratory; Michael A. Celia, James Wang, Princeton University; Nikita Chugunov, T.S. Ramakrishnan, Technical Session Schlumberger-Doll Research; Viki Stamp, True Oil LLC; 2 Sarah Gasda, Integrated Petroleum Research, Uni Research
Session 2A - CO2 Injectivity Cement Sheath Integrity for CO2 Storage – An Integrated Perspective Session Chairs: Charles Gorecki & Karsten Michael Axel-Pierre Bois, CurisTec; Siavash Ghabezloo, Jean Snohvit CO Storage Project: Assessment of CO Sulem, Ecole des Ponts; Manh-Huyen Vu, André 2 2 Injection Performance through History Matching of Garnier, Jean-Benoît Laudet, Total the Injection Well Pressure over a 32-Month Period Geomechanical Behavior of Wells in Geologic Ji Quan Shi, Claire Imrie, Caglar Sinayuc, Sevket Sequestration Durucan, Anna Korre, Imperial College; Ola Eiken, William Carey, George Zyvoloski, Kayla Lewis, Sharad Statoil Kelkar, Los Alamos National Laboratory Experimental and Numerical Study of the Effects of Development of Reacted Channel during flow of Halite Scaling on Injectivity and Seal Performance CO -Rich Water along a Cement Fracture 2 during CO2 Injection in Saline Aquifers Nicolas Huerta, The University of Texas at Austin Giacomo Bacci, Anna Korre, Sevket Durucan, Imperial and National Energy Technology Laboratory; Quinn College London Wenning, Marc Hesse, Christina Lopano, The University A New Tool to Predict Injection Well Numbers for a of Texas at Austin; Brian Strazisar, National Energy Total Injection Rate and Given Formation Properties Technology Laboratory Ehsan Azizi, Yildiray Cinar, Guy Allison, The University Session 1G - Industrial Sources of New South Wales and CO2CRC, Karsten Michael, CO2CRC and CSIRO Session Chairs: Stanley Santos & Eemeli Tsupari Can We Overcome Thermo-Elastic Limits on CO Outline of Course 50 2 Injection Rates in Horizontal Wells? Shigeaki Tonomura, Nippon Steel & Sumitomo Metal Zhiyuan Luo, Steven Bryant, The University of Texas at Corporation Austin
www.ghgt.info • [email protected] Session 2B - Post-Combustion: Sovent Alternatives Optimal CO2 Capture Operation in an Advanced Electric Grid Session Chairs: Peter Ragden & Bernd Schallert Stuart Cohen, Michael Webber, Gary Rochelle, The Amine Blends Using Concentrated Piperazine University of Texas at Austin Le Li, Xe Chen, Yang Du, Stephanie Freeman, Okmar Composing the Whole CCS System Including CO Namjoshi, Thu Nguyen, Alexander Voice, Qing Xu, Gary 2 Buffer Rochelle, University of Texas at Austin; Han Li, Tsinghua Haruhiro Suzuki, Kyuro Sasaki, Yuichi Sugai, Kyushu University University Energy Efficient Solvents for CO Absorption from 2 Session 2E - Membranes Flue Gas: Vapour Liquid Equilibrium and Pilot Plant Study Session Chairs: Teruhiko Kai & May-Britt Hägg Prachi Singh, IEAGHG; W. P. M. Van Swaaij, Wim Brilman, CO Capture by Sub-Ambient Membrane Operation University of Twente 2 22 David Hasse, Sudhir Kulkarni, Ed Sanders, Elizabeth A Novel Reactive 4-Diethylamino-2-Butanol Solvent Corson, Air Liquide Delaware Research & Technology
for Capturing CO2 in the Aspect of Absorption Center; Jean-Pierre Tranier, Air Liquide R&D-Centre de Capacity, Cyclic Capacity, Mass Transfer, and Recherche Claude Delorme Reaction Kinetics Theoretical and Experimental Investigations of Paitoon Tontiwachwuthikul, Zhiwu Liang, Raphael N2-Selective Membranes Idem, University of Regina and Hunan University; Jennifer Wilcox, Ekin Ozdogan, Panithita Rochana, Teerawat Sema, Abdulaziz Naami, University of Regina, Stanford University Canada Poly (Amidoamine) Dendrimer Containing Polymeric Amino Acids Salts for CO Capture at Flue Gas 2 Membrane for Preferential CO Separation over H Temperatures 2 2 - Interplay Between CO Separation Properties and Steven Chiao-Chien Wei, Graeme Puxty, Paul Feron, 2 Morphology CSIRO Energy Technology Ikuo Taniguchi, Teruhiko Kai, Shuhong, Dua, Shingo Session 2C - Demonstration Projects: Storage Kazama, Research Institute of Innovative Technology for the Earth Session Chairs: Sue Havorka & Ryozo Tanaka Pd-Membranes on Their Way Towards Application for CCS Large-Scale Demonstration in Japan CO Capture Masanori Abe, Shigeru Saito, Daiji Tanase, Yoshihiro 2 Frans van Berkel, Daniel Jansen, ECN; Andreas Sawada, Yoshio Hirama, Yoshihiko Motoyama, Japan Goldbach, Hengyong Xu, DCIP; Chunnhai Jiang, CCS Co., Ltd. Chuanyong Hao, IMR; John Morund, SINTEF; Etienne
The In Salah CO2 Storage Project: Lessons Learned Soutif, TECHNIP; Bai Song, BP and Knowledge Transfer Session 2F - Modelling: Nanoscale to Core Scale Philip Ringrose, Statoil ASA; Allan S. Mathieson, Iain Wright, BP Alternative Energy; Faycal Selama, In Salah Session Chairs: Anna Korre & Andrew Cavanagh Gas Nanosized CO2 Droplets Injection for Stable
Gorgon CO2 Injection Project - 2012 Update Geological Storage John Frontczak, Gorgon Project Suguru Uemura, Yohei Matsui, Atsuto Noda, Shohji Tsushima, Shuichiro Hirai, Tokyo Institute of CO Storage in the Depleted P18-4 Gas Field Offshore 2 Technology the Netherlands (the ROAD project)
Rob Arts, Cor Hofstee, Vincent Vandeweijer, Maarten Molecular Dynamics Simulations of the CO2/Water/ Pluymaekers, Daniel Loeve, TNO; Andreas Kopp, E.ON Silica Wettability at Different Pressures Gas Storage GmbH; Willem-Jan Plug, TAQA Energy BV Shinya Tsuji, Makoto Kunieda, Yungfeng Liang, Toshifumi Matsuoka, Kyoto University; Satoru Session 2D - Technology Assessment II: Operational Takahashi, Japan Oil, Gas and Metals National Flexibilty Corporation (JOGMEC) Session Chairs: Jim Dooley & Angunn Engebø Pore Scale Models for Imbibition of CO2 Analogue Operating Flexibilty of Power Plants with CCS Fluids in Etched Micro-Model Junctions using Micro- Luca Mancuso, Rosa Domenichini, Noemi Ferrari Foster Fluidic Experiments and Direct Flow Calculations Wheeler; John Davison, IEAGHG Edo Boek, Emily Chapman, Jianhui Yang, John Cranshaw, Imperial College London CO2 Sequestration at Material Rates: Inherent Limits and Engineering Solutions Steven Bryant, The University of Texas at Austin Prediction of CO2-Brine-Quartz Contact Angles with Potential Environmental Impacts of CO2 Leakage Molecular Dynamics Computations from Study of Natural Analogue Sites in Europe Stefan Iglauer, Curtin University; Manu Matthews, Fotini Ziogou, Vasiliki Gemen, Nikolaos Koukouzas; Fernando Bresme, Imperial College London Hellas Institute; Davide de Angelis, Simone Libertini, Stan Beaubien, Salvatore Lombardi, Universita di Roma Session 2G - Industrial Sources ‘La Sapienza’; Julie West, David Jones, Patricia Coombs, Session Chair: Wilfred Maas T.S. Barlow, British Geological Survey; M. Kruger, Bundesanstalt für Geowissenschaften und Rohstoffe Aqueous Ammonia Capture Integrated with Ex-Situ Mineralisation using Recyclable Salts for Industrial A Novel Experimental Release of CO2 in the Marine CCS Environment to Aid Monitoring and Impact Xiaolong Wang China Huaneng Clean Energy Research Assessment Institute; Mercedes Maroto-Valer, University of Jerry Blackford, Plymouth Marine Laboratory Nottingham Session 3B - Post-Combustion: Two-Phase Solvents 23
The Calcium Looping Process for Low CO2 Emission Session Chairs: Jasmin Kemper & Masaki Iijima Cement and Power Selection and Characterization of Phase-Change Matteo Carmelo Romano, Maurizio Spinelle, Stefano Solvent for CO Capture: Precipitating System Campanari, Stefano Consonni, Politecnico di Milano; 2 Inna Kim, Sholeh Ma’mum, SINTEF Materials and Giovanni Ciniti, Maurizio Marchi, Natale Pimpinelli, Chemistry CTG - Italcementi Group Overall Process Analysis and Optimization for CO CO Recovery from Industrial Hydrogen Facilities and 2 2 Capture from Coal Fired Power Plants Based on Steel Production to Comply with European Emission Phase Change Solvents Forming Two Liquid Phases Regulations: Ulrich Liebenthal, Alfons Kather, Hamburg University Bernd Holling, Christine Kandziora, Alfred Bolkart, of Technology; Diego Pinto, Julianna Monteiro, Linde AG Hallvard Svendsen, Norwegian University of Science Oxy-Fuel Retrofitting of Fuel Oil Fired Refinery and Technology Heaters – a Two-Step Experimental Approach Precipitating Carbonate Solvent Process for CO Morten Seljeskog, Mario Ditaranto, SINTEF Energy 2 Capture Research Geoff Stevens, Kathryn Mumford, Kohei Endo, Dimple Quyn, Hendy Thee, Kathryn Smith, Sandra Kentish, University of Melbourne; Clare Anderson, Barry Technical Session3 Hooper, Abdul Qadar, CO2CRC Precipitating Carbonate Process for Low-Energy
Post-Combustion CO2 Capture Technology Development and Pilot-Plant Operation Session 3A - Environmental Impacts of CO Storage 2 Robert Moene, Lodi Schoon, Frank Geuzenbroek, Shell Session Chairs: Jun Kita & Tim Hill Global Solutions International B.V; Jiri van Streel Shell (Petroleum Mining) Co. Ltd (NZ) Evaluation of Dissolved CO2-Induced Metals Mobilization in Groundwater using a Controlled Session 3C - Demonstration Projects: US Regional Release Experiment Carbon Sequestration Partnerships Robert Trautz, EPRI; Liange Zheng, Yuxin Wu, Charuleka Session Chairs: John Litynski & Masanori Abe Varadharajan, Nicolas Spycher, Susan Hubbard, Jens Birkholzer, Lawrence Berkeley National Laboratory; Three Million Metric Ton Monitored Injection at the John Pugh, Southern Company Services; Dennis SECARB Cranfield Project - Project Update Newell, Los Alamos National Laboratory Susan Hovorka, The University of Texas at Austin Laboratory Experiments and Field-Study of a Marine Early Operational Experience at a One-Million Tonne CCS Demonstration Project, Decatur, Illinois, USA Natural Analogue for Potential Seepage from CO2 Storage Sites in Aquatic Environments Robert Finlay, Scott Frailey, Hannes Leetaru, Giorgio Caramann, Mercedes Maroto-Valer, The Illinois State Geological Survey; Scott Marsteller, University of Nottingham Schlumberger Carbon Services
www.ghgt.info • [email protected] Evaluating the Suitability for CO2 Storage at the CO2 Enhanced Oil Recovery and Geological FutureGen 2.0 Site, Morgan County, Illinois, USA Sequestration Potential in Northern Niagaran Alain Bonneville, Tyler Gilmore, Vince Verneul, Pinnacle Reef Trend Reservoirs, Northern Lower Delphine Appriou, Bruce Bjornstad, Jack Horner, Frank Michigan, USA Spane, Battelle Pacific Northwest Laboratories; Mark David Barnes, Willian Harrison, Jason Asmus, Western Kelley, Jackie Gerst, Neeraj Gupta, Kaitlin McNeil, Mark Michigan University; G. Michael Grammer, Oklahoma Moody, FutureGen Industrial Alliance Inc. State University
Overview of the Bell Creek Combined CO2 Storage Session 3F - Modelling: Managing Uncertainty and CO Enhanced Oil Recovery Project 2 Session Chairs: Bill Carey & Lingli Wei John Hamling, Charles Gorecki, Edward Steadman, John Harju, University of North Dakota EERC Reducing Uncertainty in Reservoir Model Predictions: From Plume Evolution to Tool Responses Session 3D - Panel Discussion: Nikita Chugunov, T.S. Ramakrishnan, Schlumberger- CCS in Developing Asia 24 Doll Research; Ozgur Senel, Schlumberger Carbon An overview of the Asian Development Bank’s efforts Services to promote CCS in the PRC and Southeast Asia, as part Model Comparison and Uncertainty Quantification of a comprehensive plan to promote clean energy for Geologic Carbon Storage: The Sim-SEQ Initiative deployment in the region. Highlighting the role of CCS Sumit Mukhopadhyay, Christine Doughty, Jens within PRC’s overall energy security and decarbonizing Birkholzer, Lawrence Berkeley National Laboratory; strategy, and presenting ADB’s CCS project portfolio in Jean-Philippe Nicot, Seyyed Hoseini, University of PRC. Texas Austin; Diana Bacon, Luke Gosink, Guang Chairman: Ashok Bhargava, Energy Division ADB Lin, Ramya Ramanathan, Pacific Nortwest National Panelists: Laboratory; Sarah Gasda, Uni Research Norway Annika Seiler, Finance Specialist, ADB Capacity and Injectivity in the Surat/Bowen Basins, Pradeep Tharakan, Climate Change Specialist, ADB Queensland, Australia: Likelihood and Uncertainty Tong Yiying, Datang International Power Generation Evaluation Corporation Limited, Suzanne Hurter, Peter Probst, Sebastian Gonzalez, Usman Pasarai, LEMIGAS, Sam Guiton, Schlumberger Carbon Services; Andrew Witsarut Thungsuntonkhun, Dept of Mineral and Fuels, Garnet, Formerly CEO & Project Director ZeroGen; Thailand, Norhafiz Marmin, Schlumberger Carbon Services, Le Van Luc, Ministry of Industry and Trade, Vietnam Australia and Petroleum Development Oman Session 3E - Enhanced Hydrocarbon Recovery I Maximum Uncertainty Reduction in Numerical Performance Assessments of Geological CO2 Storage Session Chairs: Sandeep Verma & Kozo Sato Sites: An Example from the Rock Springs Uplift, Greater Green River Basin, Wyoming, USA Flue Gas Injection for CO2 Storage and Enhanced Coalbed Methane Recovery: Mixed Gas Sorption and Ronald Surdam, Zunsheng Jiao, Yuri Ganshin, Ramsey Swelling Characteristics of Coals Bentley, Mario Garcia-Gonzalez, Scott Quillinan, Amer Syed, Sevket Durucan, Ji-Quan Shi, Anna Korre, Fred McLaughlin, University of Wyoming Carbon Imperial College London Management Institute; Philip Stauffer, Hailin Deng, Los Alamos National Laboratory Description of a CO2 Enhanced Coalbed Methane Field Trial Using a Multi-Lateral Horizontal Well Session 3G - Commercial Issues Luke Connell, Zhejun Pan, Michael Camilleri, David Session Chairs: Tony Booer & Richard Esposito Down, John Carras, Cameron Briggs, CSIRO; Shangzhi Meng, Wenzhong Zhang, Benguang Guo, CUCBM The Implications of the Global Financial Crisis for CCS Geoff Rumble, Christopher Short, Klaas van Alphen, The Altmark Natural Gas Field is Prepared for the Gwendaline Jossec, Global CCS Institute Enhanced Gas Recovery Pilot Test with CO2 Michael Kühn, Andrea Förster, Peter Pilz, Maja Tesmer, North West Redwater Partnership – Carbon Capture GFZ German Research Centre for Geosciences; Jochen through Innovative Commercial Structuring in the Grossman, GICON Grossmann Ingenieur Consult Canadian Oil Sands GmbH; Jan Lille, GDF SUEZ E&P Deutschland GmbH; Terry Kemp, Kevin Heal, North West Redwater Kurt M. Reinicke, Technische Universität Clausthal; Dirk Partnership Schäfer, Christian-Albrechts-Universität Kiel A Real Options Analysis of Carbon Dioxide Sequestration for Trinidad and Tobago: A Case Study of the Mahogany Field Steve Seetahal, David Alexander, The University of Trinidad and Tobago Value Chain Analysis of CO2 Storage by Using the Assessing Atmospheric Emissions from Amine-Based ECCOTool: Storage Economics PCC Processes and Their Impacts on the Environment Daniel Loeve, Christian Bos, Alin Chitu, TNO; Sigurd - A Case Study Weidemann Løvseth, Per Eilif Wahl, SINTEF; Paula Paul Feron, Merched Azzizi, Erik Meuleman, Brendan Coussy, IFPEN; Charles Eickhoff, Progressive Energy Halliburton, Dennys Angrove, CSIRO; Martin Oettinger, Ltd 4A Experiences and Case Studies Global CCS Institute Thermal Degradation on Already Oxidatively Degraded Solutions: Solrun Johanne Velvestad, Hanna Knuutila, Hallvard Technical Session Svendsen, NTNU; Andreas Grimstvedt, SINTEF 4 Materials and Chemistry
Oxidative Degradation of Amines with High- Session 4A - Experiences and Case Studies Temperature Cycling 25 Alexander Voice, University of Texas and TNO; Fred Session Chairs: Andy Chadwick & John Kaldi Closmann, Gary Rochelle, University of Texas Snøhvit: The History of Injecting and Storing 1 Mt CO 2 Session 4C - Demonstration Projects: Policy Related in the Fluvial Tubåen Fm Issues Ola Eiken, Douglas Gilding, Hilde Hansen, Olav Hansen, Bamshad Nazarian, Bård Osdal, Philip Ringrose, Session Chairs: Brendan Beck & Chris Hendriks Hossein Mehdi Zadeh, Statoil Too Early or Too Late for CCS - What Needs to be
Calibration and Prediction of the Sleipner CO2 Plume Done to Overcome the Valley of Death for Carbon from 2006 to 2012 Capture and Storage in Europe? Andrew Cavanagh, Landmark-Halliburton Peter Radgen, E.ON New Build and Technology GmbH; Robin Irons, E.ON New Build and Technology Ltd.; Hans Investigations of Alleged CO Leakage in Weyburn, 2 Schoenmakers, E.ON Benelux Holding B.V. Canada in the Context of Longer Term Surface Gas
Monitoring Key Messages from Active CO2 Storage Sites David Jones, Andrew Barkwith, Tom Barloe, Bob Ton Wildenborg, TNO; Andy Chadwick, BGS; Heleen Lister, British Geological Survey; Stan Beaubien, de Coninck, ECN; Jean-Pierre Deflandre, IFPEN; Allan Tiziana Bellomo, Aldo Annunziatellis, Stefano Graziani, Mathieson, BP; Richard Metcalfe, Quintessa; Conny Salvatore lombardi, Gilles Braibant, Università di Roma Schmidt-Hatteberger, GFZ ‘La Sapienza’ Establishment of Knowledge Base for Emission
Inducing a CO2 Leak into a Shallow Aquifer Regulation for the CO2 Technology Centre Mongstad
(CO2FieldLab EUROGIA+ Project): Monitoring the CO2 Yolandi Maree, Sissel Nepstad, TCM DA; Gelin De Plume in Groundwaters Koeijer, Statoil Frédérick Gal, Eric Proust, Pauline Humez, Gilles Industry Guidance on Safe Handling of CCS CO – Braibant, Michael Brach, Florian Kock, David Widory, 2 CO2RISKMAN JIP Jean-François Girard, BRGM Hamish Holt, Kaare Helle, Jorg Aarnes, DNV Sessions 4B - Post-Combustion: Environmental Characterisation Session Chairs: Phil Sharman & Yuichi Fujioka Chemical Characterization of 30% MEA Degradation
During Post-Combustion Capture of CO2 from a Brown Coal-Fired Power Station Alicia Reynolds, Vincent Verheyen, Samuel Adeloju, Alan Chafee, Monash University; Erik Meuleman, Paul Feron, CSIRO Energy Technology
www.ghgt.info • [email protected] Session 4D - Panel Discussion: Identifying Diagnostics for Reservoir Structure
Understanding the Costs of CCS and CO2 Plume Migration from Multilevel Pressure Measurements The literature reports a wide range of costs for CCS. Christin Strandli, Sally Benson, Stanford University Furthermore, these costs are reported in various forms, such as capture cost, avoided cost, levelized cost, etc. Session 4G - Retrofitting This can lead to confusion and misuse of the costing Session Chairs: John Davison & Chris Satterley data. To help provide clarity to this subject, this panel
will address several critical questions about CCS costs, Retrofitting CO2 Capture to Existing Power Plants including understanding costing methodologies, Jon Gibbins, Hannah Chalmers, Mathieu Lucquiad, comparing real project costs to generic cost studies, University of Edinburgh; John Davison, IEAGHG; Jia Li, and examining “first-of-a-kind” costs. Xi Liang, University of Exeter; Nial McGlashan, Imperial College London Chairman: Howard Herzog MIT Summary Results and Insight from EPRI’s 26 Panelists: Engineering and Economic Study of Post Chris Short, Global CCS Institute Combustion Capture Retrofit Applied to Various Chris Greig, University of Queensland North American Host Sites Cheryl Wilson, Bloomberg Desmond Dillon, EPRI Session 4E - Enhanced Hydrocarbon Recovery II Carbon Capture Retrofit Options with the On-Site Session Chairs: Kozo Sato & Steve Whittaker Addition of Gas Turbine Combined Heat and Power Cycle Deploying Combined EOR and CCS Projects Mathieu Lucquiaud, Maria Sanchez, Laura Herraiz, Jon Kurt House, Ernst van Neiro, Antonio Baclig, Shipeng Gibbins, The University of Edinburgh Fu, Mark Henly, Charles Brankman, Kelly Bergman, Robert Selover, C12 Energy Enhancement and Long-Term Testing of Optimized Post-Combustion Capture Technology – Results from Comparing Alternatives for Early CCS Projects in the the Second Phase of the Testing Programme at the United States via EOR Pilot Plant Niederaussem Eric Larson, Robert Wiliams, Princeton University; Peter Moser, Sandra Schmidt, Sarah Wallus, RWE Power Guangjiang Liu, North China Electric Power University AG; Georg Sieder, Javier Garcia-Palacios, BASF SE; Torsten Stoffregen, Linde-Engineering Dresden GmbH, Assessment of Factors Influencing CO Storage 2 Dieter Mihailowitsch, Linde AG Capacity and Injectivity in Eastern U.S. Gas Shales Michael Godec, George Koperna, Robin Petrusak, Anne Oudinot, ARI Inc. The Economics of CO Sequestration Through 2 Technical Session Enhanced Oil Recovery 5 Klaas van ‘t Veld, Charles Mason, University of Wyoming; Andrew Leach, University of Alberta Session 4F - Monitoring: Pressure Methods Session 5A - Monitoring: Demonstration and Pilot Projects Session Chairs: Millie Basava-Reddi & Randy Locke Session Chairs: Toshifumi Matsuoka & Susan Hovorka Tracing Back the Pressure-Impact Zone of the CO2 Geological Storage Through a Cyclic Injection Microseismic Monitoring and Interpretation with Strategy Associated Injection Data from the In Salah CO2 Jeremy Rohmer, BRGM Storage Site (Krechba), Algeria Volker Oye, Daniela Kühn, NORSAR; Eyvind Aker, Leakage Fingerprints During Storage: Modeling Bahman Bohloili, Norwegian Geotechnical Institute; Above-Zone Measurements of Pressure and Thomas M. Daley, Valeri Korneev, Lawrence Berkeley Temperature National Laboratory Qing Tao, Steven Bryant, Timothy Meckel, The University of Texas at Austin Maximizing the Value of Pressure Monitoring Data
from CO2 Sequestration Projects Srikanta Mishra, Mark Kelley, Evan Zeller, Nick Slee, Neeraj Gupta, Battelle Memorial Institute; Indra Bhattacharya, Mike Hammond, American Electric Power Feasibility of Time-Lapse Seismic Methodology for Oxy-Combustion Technology Development for
Monitoring Injection of Small Quantities of CO2 into Fluid Catalytic Crackers (FCC) – Large Pilot Scale a Saline Formation, CO2CRC Otway Project Demonstration Roman Pevzner, Milovan Urosevic, Eva Caspari, Leonardo de Mello, Rodrigo Gobbo, Gustavo Moure, Mahair Maddi, Curtin University and CO2CRC; Tess Petrobras; Ivano Miracca, ENI Dance, Valeriya Shulakova, CSIRO; Boris Gurevich, 30 MWth CIUDEN Oxy-CFB Boiler - First Experiences Curtin University, CSIRO and CO2CRC; David Lumley, Monica Lupion, Iñaki Alvarez, Pedro Otero, Vincente University of Western Australia; Vladimir Tcheverda, SB Cortes, CIUDEN; Reiji Kuivalainen, Jouni Lantto, Arto RAS; Yildiray Cinar, University of New South Wales and Hotta, Horst Hack, Foster Wheeler North America Corp. CO2CRC Session 5D - Panel Discussion: Evaluation of CO Saturation at Nagaoka Pilot-Scale 2 The Intersection of Large Scale Renewable Energy Injection Site Derived from the Time-Lapse Well and CCS Deployment within the Electricity Sector Logging Data Takahiro Nakajima, Ziqiu Xue, Research Institute of There is a growing body of literature that sees large 27 Innovative Technology for the Earth scale renewable energy generation as a hinderance to the large scale deployment of CCS technologies, Assessment of Alleged CO2 Leakage at the Kerr Farm Using a Simple Process-Based Soil Gas Technique: and suggests the deployment of renewable electricity Implications for Carbon Capture, Utilization, and generation will place additional burdens on CCS- Storage (CCUS) Monitoring enabled power plants., e.g., needing flexible CCS Katherine Romanak, The University of Texas GCCC power plants to compensate for intermittency from large wind power farms. On the other hand, there Session 5B - Post-Combustion: Modelling is near unanimity that if climate goals such as not o Session Chairs: John Topper & Hanne Kvamsdal exceeding a change of more than 2 C this century, the scale of CCS deployment will be driven by our ability Dynamic Behaviour of the Solvent Regeneration Part to grow hundreds of exajoules of bioenergy per year of a CO2 Capture Plant – Calidation of the CO2SIM and use this bioenergy in dedicated BECCS power Model plants. This session is designed to examine from Finn Andrew Tobiesen, Hanne Kvamsdal, Olaf Trygve macroeconomic and engineering perspectives the Berglihn, Thor Mejdell, SINTEF Materials & Chemistry; ways in which large scale renewable energy and large Nina Enaasen, Magen Hillestad, NTNU scale CCS deployments can, and perhaps must, work together. Rate-Based Modeling of CO2 Capture Pilot Plant with Aqueous Monoethanolamine Solution Chairman: Jim Dooley, PNNL, USA Chau-Chyun Chen, Ying Zhang, Aspen Technology, Inc. Panelists: Energy Performance of Advanced Stripper Toshihiko Masui, NIES, Japan Configurations Jae Edmonds, PNNL, USA Peter Frailie, Tarun Madan, Brent Sherman, Gary Sean McCoy, IEA-Paris, France Rochelle, The University of Texas at Austin Howard Herzog, MIT, USA Design Parameters Affecting the Commercial Post Session 5E - Post-Combustion: Environmental Combustion CO Capture Plants 2 Nitrosamines Ahmed Aboudheir, Walid Elmoudir, HTC CO2 Systems Corp. Session Chairs: Paul Feron & Helle Brit Mostad Session 5C - Demonstration Projects: Capture and Nitrosamine Management in Aqueous Piperazine for
Transport CO2 Capture Nathan Fine, Gary Rochelle, Mandana Ashouripashaki, Session Chair: Klaus Schöffel Alexander Voice, Steven Fulk, Lynn Li, Omar Namjoshi, The Alberta Carbon Trunk Line University of Texas, Austin Susan Cole, Enhance Energy Inc. ELCOGAS Pre-Combustion Carbon Capture Pilot. Ultra-Violet Treatment as a Strategy for Destruction Real Experience of Commercial Technology of Degradation Products from Amine Based Post Pedro Casero Cabezón, Francisco García Peña, Combustion CO2 Capture ELCOGAS, S.A.; Javier Trujillo Rivera, Universidad Moetaz Attalla, Phil Jackson, CSIRO Castilla la Mancha
www.ghgt.info • [email protected] Destruction of Nitrosoamines with UV-Light Hanna Knuutila, Hallvard Svendsen, Naveed Asif, NTNU Health and Environmental Impact of Amine Based TechnicalSession Post Combustion CO Capture 6 2 Eik Gjernes, Laila Iren Helgesen, Gassnova SF; Sissel Nepstad, TCM DA Session 6A - Site Characterisation and Selection Session 5F - Reservoir Engineering: Multi-Phase Session Chairs: Rajesh Pawar & Jonathan Pearce Flow of CO2 and Brine CO Storage Atlas of the Norwegian Part of the North Session Chairs: Steve Bryant & Pascal Audigane 2 Sea
Stability Analysis of CO2-Brine Immiscible Eva Halland, Wenche T. Johansen, Ine T. Gjeldvik, Displacement Fridtjof Riis, Christian Magnus, Van T.H. Pham, Inge M. Tappel, Norwegian Petroleum Directorate 28 Holger Ott, Steffan Berg, Shell Global Solutions International Depositional Environment as an Indicator of
Drainage and Imbibition CO2/Brine Relative Favorable Regional Sequestration Targets: Examples Permeability Curves at In-Situ Conditions for from the USGS CO2 Storage Resource Assessment Sandstone Formations in Western Canada Matthew Merrill, U.S. Geological Survey Stefan Bachu, Alberta Innovates - Technology Futures Effects of Geological Heterogeneity on CO2
Multiphase Flow Properties of the CO2/Brine System Distribution and Migration – A Case Study from the for Carbon Sequestration Johansen FormaStion, Norway Sam Krevor, Imperial College London; Ronny Pini, Sally Anja Sundal, Johan Petter Nystuen, Henning Dypvik, Benson, Stanford University Per Aagaard, University of Oslo
Influence of Heterogeneity on Relative Permeability Evaluation of CO2 Storage Potential in the Skagerrak/
for CO2/Brine: CT Observations and Numerical Kattegat Area Modeling Per Eirik Strand Bergmo, Szczepan Polak; SINTEF Yi Zhang, Testuya Kogure, Shun Chiyonobu, Ziqiu Petroleum Research, Per Aagaard, University of Oslo; Xue, RITE; Xinglin Lei, Geological Survey of Japan, Peter Frykman, Geological Survey of Denmark and National Institute of Advanced Industrial Science and Greenland; Hans Hasken Haugen, Dag Bjørnsen, Tel- Technology Tek
Session 5G - Transport and Infrastructure Fault Stability Analysis Related to CO2 Injection at Tomakomai, Hokkaido Session Chairs: Wolfgang Böser & Chris Hendriks Yuki Kano, Takahiro Funatsu, Shinsuke Nakao, Kinichiri The Influence of Impurities, Material Development Kusunose, Tsuneo Ishido, Xinglin Lei, Toshiyuki Tosha,
and Changing Prices on the Costs of CO2 Transport Geological survey of Japan/AIST Marlinde Knoope, Andrea Ramírez, André Faaij, Session 6B - Sorbent Systems University Utrecht Session Chairs: Sven Unterberger & Cost of CO Transportation Infrastuctures 2 Mohammad Abu Zahra Wim Mallon, Janneke van Wingerden, Han Lemmens,
Luuk Buit, KEMA/Gasunie Testing Post-Combustion CO2 Capture with CaO in a 1.7 MWt Pilot Facility Modelling Large-Scale CCS Development in Europe Calros Adanades, Borja Arias, Spanish Research – Linking Techno-Economic Modelling to Transport Council; CSIC-INCAR, Andrés Sánchez-Biezma, and Storage Infrastructure Jesús Paniagua, Endesa Generación; Luis Diaz, Jan Kjärstad, Mikael Odenberg, Filip Johnsson, María Lorenzo, Grupo Hunosa, Javier Alvarez, Diego Chalmers University of Technology; Joris Morbee, Martínez, Foster Wheeler Energía S.L.U Evangelos Tzimas, European Commission Progress in Calcium-Looping Post-Combustion CO Economic CO Network Optimization Model - 2 2 Capture: Successful Pilot Scale Demonstration COCATE European Project (2010-2013) Heiko Dieter, Craig Hawthorn, Mariusz Zieba, Günter Paula Coussy, IFPEN Energies nouvelles; Simon Scheffknecht, IFK University of Stuttgart Roussanal, SINTEF; Gaelle Bureau-Cauchois, GEOGREEN; Ton Wildenborg, TNO Assessment of Solid Sorbents as a Competitive Post-
Combustion CO2 Capture Technology Justin Cole Gler, Edward Rubin, Carnegie Mellon University Continuous CO2 Capture from Flue Gases Using Session 6D Panel Discussion: 24Mt of CO2 and Dual Fluidized Bed Reactors with Supported Amine Counting: What Has Weyburn-Midale Taught Us Sorbent About CCUS? Zhen-shan Li, Wen-ying Zhao, Zhi Zhang, Li-xiang The Weyburn and Midale oilfields in southern Wang, Ning-sheng Cai, Tsinghua University Saskatchewan, Canada, now store approximately 24
The Role of Water in Adsorption-Based CO2 Capture million tonnes of anthropogenic CO2 – making these Systems CO2-EOR operations the world`s largest CCUS project Dorian Marx, Lisa Joss, Max Hefti, Marco Mazzotti; ETH and allowing the allied IEAGHG Weyburn-Midale
Zurich, Ronny Pini, Stanford University CO2 Monitoring and Storage Project to provide over a decade of world class applied scientific research. Session 6C - Demonstration Projects: Post- The panel session will highlight numerous technical Combustion Capture achievements including the successful application Session Chairs: Howard Herzog & Richard Rhudy of 3D seismic surveys, characterisation of the storage complex and adjacent environment to allow 29 Operational Experience and Initial Results from comprehensive risk assessment, and development the First Test Period at the CO Technology Centre 2 of new tools to aid in the assessment of wellbore Mongstad integrity. The session will also describe how the Vibeke Andersson, Knut Sanden, Aker Clean Carbon; research project helped the unequivocal disproval of Kristina Wittmeyer, Yolandi Maree, TCM DA leakage allegations made against the Weyburn site in
Project Status and Research Plans of 500 TPD CO2 2011. Capture and Sequestration Demonstration at Chairman: Malcolm Wilson, PTRC Alabama Power’s Plant Barry Michael Ivie, Nick Irvin, Chethan Acharya, Southern Panel Members: Company; Yasuo Kubota, Hiromitsu Nagayasu, Takuya Neil Wildgust, PTRC Hirata, Paul Wood, Takahito Yonekawa, Tatsuya Ben Rostron, University of Alberta Tsujiuchi, MHI Chris Hawkes, University of Saskatchewan Aqueous Ammonia Based Post-Combustion Capture: Jim Johnson, Schlumberger-Doll Research Results from Pilot Plant Operation, Challenges and Rick Chalaturnyk, University of Alberta Further Opportunities Don White, NRCan Hai Yu, Paul Feron, CSIRO Energy Centre Session 6E - Oxy-Combustion: Combustion Fundamentals Initial Results from Fluor’s CO2 Capture Demonstration Plant Using Econamine FG Plus Session Chairs: Takashu Kiga & Monica Lupion Technology at E.ON Kraftwerke’s Wilhelmshaven Sulfur Oxide Emissions Under Dust-Fired Oxy-Fuel Power Plant Combustion of Coal Satish Reddy, Jeff Scherffius, Fluor Corporation; Peter Reinhold Spörl, Jörg Maier, Günter Scheffknecht; Ragden, Helmut Rode, E.ON New Build & Technology Universität Stuttgart GmbH Development of Hitachi Oxy-Fuel Combustion CCPILOT100+ Operating Experience and Test Results Technologies J. Carey, SSE, F.D. Fitzgerald, R.A Gardiner, Doosan Toshihiko Mine, Takahiro Marumoto, Kenji Kiyama, Power Systems Noriyuki Imada, Ken-Ichi Ochi,Hideaki Iwamoto, Babcock-Hitachi K.K. Kure Research Laboratory Fireside Corrosion of Applied and Modern Superheater-Alloys Under Oxyfuel Conditions Gosia (Malgorzata) Stein-Brzozowska, Jörg Maier, Günter Scheffknecht, IFK University of Stuttgart; Danila Cumbo, Silvia Masci, Enrico Tosi, Enel Engineering and Innovation; Giovanni Coraggio, Marco Faleni, Leonardo Biasci, International Flame Research Foundation (IFRF)
www.ghgt.info • [email protected] Technology Assessment of Oxy-Firing of Process Flow Assurance CCS Project ROAD Heater Burners Wolfgang Boeser, Stefan Belfroid, E.ON Ruhrgas AG Cliff lowe, Nick Brancaccio, Chevron Energy Integration of Pipeline Operations Sourced with Technology Company; Jamal Jamaluddin, Shell CO Captured at a Coal-Fired Power Plant and Projects and Technology; Charles Baukal, Erwin 2 Injected for Geologic Storage: SECARB Phase III CCS Platvoet, Jaime Erazo, John Zink Co. Demonstration Evaluation of the Performance of a Power Plant Richard Esposito, Southern Company Generation; Boiler Firing Coal, Biomass and a Blend Under Oxy- Christina Harvick, Rusty Shaw, Denbury Resources, Inc.;
Fuel Conditions as a CO2 Capture Technique Doug Mooneyham, Cardno Entrix; Jerry Hill, Southern Alessandro Pranzitelli, Sandy Black, Penelope Edge, State Energy Board; Robert Trautz, EPRI Janos Szuhánszki, Lin Ma, Mohamed Pourkashanian, Planning CCS Development in the West University of Leeds Mediterranean 30 Session 6F - Legal and Regulatory Dulce Boavida, Laboratório Nacional de Energia e Geologia - LNEGl; Julio Carnerio, University of Évora; Session Chairs: Tim Dixon & Juho Lipponen Roberto Martinez, IGME; Machteld van den Broek,
Liability for Sequestered CO2; The Path Forward for Andrea Ramirez, Utrecht University; Abdelkrim Rimi, Alberta UM5A-ISR; Giancarlo Tosato, ASATREM; Marie Gastine, Michael Fernandez, Alberta Energy BRGM Regulating Carbon Dioxide Storage Operations Near The Study on Prospects and Early Opportunities Oil and Gas Fields, Australia’s Approach for Carbon Capture and Storage in Guangdong Ian Walker, Steve Tantala, Willie Senanayake, Province, China Department of Resources, Energy and Tourism, Ying Huang, Diaqing Zhao, Chinese Academy of Australian Government; Greg Leamon, Geoscience Sciences; Hongxu Guo, Chinese Academy of Sciences Australia, Australian Government and Graduate School of the Chinese Academy of Science Implications of Alternative Post-Injection Regulatory
Guidance Upon CO2 Storage in Dipping Open Aquifers Aaron Goater, Andy Chadwick, British Geological TechnicalSession Survey 7 Carbon Capture and Storage and the London Protocol: Recent Efforts to Enable Transboundary Session 7A - Trapping Mechanisms: Case Studies CO2 Transfer Justine Garrett, Sean McCoy, International Energy Session Chairs: John Bradshaw & Charles Gorecki Agency Determining Residual CO2 Saturation Through CCS Directive Transposition into National Laws in a Dissolution test - Results from a CO2CRC Field Europe: Progress and Problems by the End of 2011 Experiment Alla Shogenova, Kazbulat Shoganova, Tallinn Ralf Haese, Chris Boreham, CO2CRC/Geoscience; University of Technology; Kris Piessens, Geological Jonathan Ennis-King, Lincoln Paterson, CO2CRC/CSIRO; Survey of Belgium; Sam Holloway, BGS; Roberto Barry Freifeld, Lawrence Berkeley National Laboratory; Martínez, IGME; Kristin M. Flornes, IRIS; Niels E. Poulsen, Ulrike Schacht, University of Adelaide Geological Survey of Denmark and Greenland; Adam Brine Geochemistry Changes Induced by CO2 Wójcicki, Polish Geological Institute; Anlexandra Dudu, Injection Observed Over a 10 Year Period in the GeoEcoMar; Sergio Persoglia, OGS Weyburn Reservoir Session 6G - Transport and Infrastructure Maurice Shevalier, Michael Nightingale, Berhard Mayer, Ian Hutcheon, University of Calgary Session Chairs: Jim Dooley & Joris Koornneef Assessment of the Contribution of CO Trapping Regional Specific Challenges of a CO Pipeline 2 2 Mechanisms at the Ketzin Pilot Site Infrastructure in the West Mediterranean Area Thomas Kempka, Elisa Klein, Marco de Lucia, Elena Machteld van den Broek, Niels Berhout, Ramírez, Tillner, Michael Kühn, GFZ Utrecht University; Paulo Mesquita, Júlio Carneiro, José
Rafael Silva, University of Évora; João Pedro Gouveia, Geochemical Trapping of CO2 in Saline Aquifer Júlia Seixas, Universidade Nova de Lisboa; Helena Storage: Results of the Repeated Formation Fluid Cabal, CIEMAT; Roberto Martinez, IGME; Abdelkrim Sampling at the Nagaoka Site Rimi, ISR; Mariana Sardinha, Dulce Boavida, LNEG; Saeko Mito-Adachi, Ziqiu Xue, RITE GianCarlo Tosato, Asatrem srl Session 7B - Post-Combustion: Environmental Session 7D - Panel Discussion: Making CCS Aerosol Demonstrations Happen: Lessons Learned Session Chairs: Masami Onoda & Gary Rochelle Fossil fuels, both coal and gas, are expected to dominate in the world power generation mix for the Emission Studies from a CO Capture Pilot Plant 2 next several decades. The IEA estimates that methods Eirik Falck da Silva, Herman Kolderup, Kai W. Hjarbo, to deal with emissions from these sources should Thor Mejdell, Kolbjørn Zahlsen, Hanne M. Kvamsdal, make up about one fifth of the effort required to meet SINTEF Materials and Chemistry; Arjen Huizinga, Purvil the 2 degree Celsius goal for avoiding dangerous Khakharia, Ilse Tuinman, TNO climate change. Worldwide, a number of institutions Characterization of Piperazine/ and technology suppliers have invested considerable Aminomethylpropanol money in research and development of capture Han Li, Jian Chen, Tsinghua University; Le Li, Thu and storage methods for CO2. Some $26 billion in Nguyen, Peter Frailie, Gary Rochelle, The University of support has been pledged by governments towards Texas at Austin major demonstrations of the technology. Yet few of 31 these demonstrations have gone ahead and, in the Novel Concept for Emission Control in Post- electricity sector, none are yet operational. What has Combustion Capture gone wrong, and how can the situation be improved? Jacob Nygaard Knudsen, Otto Mort Bade, Marie Anheden, Oddvar Gorset, Randi Bjorklund, Aker Clean Chairman: Gwen Andrews, Alstom Carbon AS Panel Members: Volatile Contaminant Control in Amine-Based CO 2 Tony Wood, Clinton Climate Foundation Capture Systems Masanori Abe, Japan CCS Co. Steven Fulk, Gary Rochelle, The University of Texas at Peter Radgen, E.On Austin Greg Everett, Delta Energy Session 7C - System Integration I: Power Systems Session 7E - Capture Pre-Combustion: Process Session Chairs: Kevin McCauley & Kenji Yamaji Session Chairs: Olav Bolland & Daan Jansen The Flexibility Requirements for Power Plants with A Step-Change Sour Shift Process for Improving the CCS in a Future Energy System with a Large Share of Efficiency of IGCC with CCS Intermittent Renewable Energy Dources Jonathan Forsyth, BP Alternative Energy International Anne Sjoerd Brouwer, Utrecht University and Energy Limited Research Centre of the Netherlands; Ad Seebregts, Energy Research Centre of the Netherlands; André Application of Hydrogen Selective Membranes to Faaij, Utrecht University Integrated Gasifier Combined Cycle Giampaolo Manzolini, Matteo Gazzani, Davide Turi, Integration and Operation of Post-Combustion Antonio Giuffrida, Ennio Macchi, Politecnico di Milano Capture System of Coal-Fired Power Generation: Load Following and Solvent Storage High Efficiency IGCC with Carbon Capture via Robert Brasington, Howard Herzog, Massachusetts Technology Improvements, Improved Heat Institute of Technology Integration and Reuse of Low Grade Heat Suzanne Ferguson, Geoff Skinner, Jaco Schieke, Performance and Cost Impacts of Cycling Coal and Foster Wheeler; Eva van Dorst, Shell Global Solutions Natural Gas-Fired Power Plants with CCS in a System International B.V. with High Wind Penetration Peter Versteeg, David Luke Oates, Edward Rubin, Simulation of the Cyclic Operation of a PSA-based Carnegie Mellon University SEWGS Process for Hydrogen Production with CO2 Capture The Value of CCS in Power Systems with High Levels Bita Najmi, Olav Bolland, Norwegian University of of Renewables Penetration Science and Technology; Konrad Eichhorn Colombo, Sean McCoy, Dennis Volk, International Energy GE Global Research, Germany Agency; Joachim Bertsch, Stefan Nagl, Christian Growitsch, University of Cologne; Mathias Finkenrath, University of Applied Sciences Kempten; John Davison, IEAGHG
www.ghgt.info • [email protected] Session 7F - Monitoring: Geochemical Methods Session Chairs: Katherine Romanak & Linda Stalker
Strategies for Detection and Monitoring of CO2 TechnicalSession Leakage in Sub-Seabed CCS 8 Kiminori Shitashima, International Institute for Carbon- Neutral Energy Research, Kyushu University; Yosiaki Session 8A - Risk Assessment and Management I Maeda, CERES, Inc; Takashi Ohsumi, Central Research Session Chair: Kenneth Hnottavange-Telleen Institute of Electric Power Industry Quantification of Risk Profiles and Impacts of Development of an Offshore Monitoring Plan for a Uncertainties as Part of US DOE’s National Risk Commercial CO Storage Pilot 2 Assessment Partnership (NRAP) Owain Tucker, Paul Garnham, Paul Wood, Shell Projects Rajesh Pawar, Philip Staufer, Los Alamos National and Technology; Wilfred Berlang, Shell Projects and Laboratory; Grant Bromhal, Robert Dilmore, National Technology 32 Energy Technology Laboratory; Curt Oldenberg, Design and Instrumentation of a High Controlled Lawrence Berkeley National Laboratory; Bill Foxall,
Experiment of CO2 Injection at Heletz, Israel in the Edwin Jones, Lawrence Livermore National Laboratory; Frame of the EU-FP7 MUSTANG project Stephen Unwin, Pacific Northwest National Laboratory Jacob Bensabat, EWRE Ltd.; Auli Niemi, Uppsala Quantifying Basin Scale Leakage Risk and University Stakeholder Impacts Atmospheric Tomography as a Tool for Jeffrey Bielicki, Melissa Pollak, Elizabeth Wilson,
Quantification of CO2 Emissions from Potential University of Minnesota; Catherine Peters, Jeffrey Fitts, Surface Leaks Princeton University Andrew Feitz, Tehani Kuske, Henry Berko, Geoscience Induced Seismicity; Observations, Risks and Australia and CO2CRC; Charles Jenkins, CSIRO Energy Mitigation Measures at CO Storage Sites Transformed Flagship; Steve Zegelin, CO2CRC and 2 Andy Nicol, Matt Gerstenberger, CO2CRC & GNS CSIRO Marine and Atmospheric Research; Mahabubur Science; Paul Viskovic, Chris Bromley, Susan Ellis, GNS Mollah, Primary Industries Research Victoria Science; Charles Jenkins, CSIRO Canberra; Tony Siggins, Session 7G - Policy: Emissions Trading CSIRO Melbourne
Session Chair: Ken-ichi Wada Key Site Abandonment Steps in CO2 Storage Michael Kühn, Mario Wipki, Stefan Lüth, GFZ German Getting Science and Technology into International Research Centre for Geosciences; Sevket Durucan, Climate Policy: Carbon Capture and Storage in the Imperial College London; Jean-Pierre Deflandre, UNFCCC IFP Energies nouvelles; Jens Wollenweber, TNO - Tim Dixon, Samantha Neades, IEAGHG; Katherine Nederlandse Organisatie voor; Andy Chadwick, British Romanak, Gulf Coast Carbon Center, Bureau of Geological Survey; Gualtiero Böhm, Istituto Nazionale Economic Geology, The University of Texas at Austin; di Oceanografia e Geofisica Sperimentale Andy Chadwick, British Geological Survey Session 8B - Post-Combustion: Advanced Solvents CCS Projects as Kyoto Protocol CDM Activities Greg Leamon, Australian Government; Tim Dixon, Session Chairs: Kazuya Goto & Gary Rochelle IEAGHG; Paul Zakkour, Carbon Counts; Luke Warren, Chemical Absorption Kinetics in MEA Solution with Carbon Capture and Storage Association Fine Particles CCS in Carbon Markets Bo Zhao, Meng Cao, Shujuan Wang, Yuqun Zhuo, Ellina Levina, Juho Lipponen, International Energy Changhe Chen, Key Laboratory for Thermal Science Agency and Power Engineering of Ministry of Education
Deployment of CCS in Europe: an Assessment of the Optimization of CO2 Capture from Flue Gas with Effectiveness of the EU ETS Promoted Potassium Carbonate Solutions Arnold Mulder, University of Groningen Peter Behr, Andre Maun, Alexander Tunnat, Gerd Oeljeklaus, Randi Görner, University Duisburg-Essen Alternative Layouts for the Carbon Capture with the Chilled Ammonia Process Gianluca Valenti, Davide Bonalumi, Ennio Macchi, Dominicc Gatti, Politecnico di Milano; Philip Fosbøl, Kaj Thomsen, Technical University of Denmark New Energy Efficient Processes and Newly Chairman: Sally Benson, Stanford University Developed Absorbents for Flue Gas CO Capture 2 Panelists: Koji Kadono, Asao Suzuki, Kansai Electric Power; Masaki Iljima, Toyishi Ohishi, Mitsubushi Heavy Sam Holloway, BGS Industries; Hiroshi Tanaka, Takuya Hirata, Masami Susan Hovorka, University of Texas at Austin Kondo, Mitsubushi Heavy Industries Sean Brennan, US Geological Survey Session 8C - System Integration II: Infrastructure Stefan Bachu, Alberta Innovates - Technology Futures Matt Gerstenberger, GNS Science Session Chairs: Keigo Akimoto & Angunn Engebø Session 8E - Novel Systems Infrastructure for CCS in the Skagerrak/Kattegat Region, Southern Scandinavia: A Feasibility Study Session Chairs: Katsunori Yogo & Rebecca Gardiner Hans Askel Haugan, Nils Eldrup, Ragnhild Skagestad, Higher Efficiency and Lower Cost Electricity Anette Mathisen, Dag Bjørnsen, Tel-Tek; Per Aagaard, Generation from Fossil Fuels while Eliminating Thor Axel Thorsen, University of Oslo; Jan Kjärstad, Atmospheric Emissions, Including Carbon Dioxide 33 Chalmers University of Technology; Per Bergmo, Rodney Allam, Miles Palmer, G. William Brown, Jeremy SINTEF Petroleum Research Fetvedt, NET Power LLC; Hideo Nomoto, Nobuo Okita, Pathways for Deploying CCS at Australian Power Masao Itoh, Toshiba Corporation; Bo Jones, Shaw Plants Power Group Minh Ho, Dianne Wiley, UNSW and CO2CRC Electrochemically-Mediated Gas Separation CCS Infrastructure Development Scenarios for the Processes for Carbon Abatement Integrated Iberian Peninsula and Morocco Energy Fritz Simeon, Mike Stern, Krisitn Vicari, Howard Herzog, System T. Alan Hatton, Massachusetts Institute of Technology; Amit Kanudia, KanORS EMR, India; Dulce Boavida, Thomas Hammer, Harald Landed, Siemens Corporate INETI; Mactheld van den Broek, Utrecht University; Technology Helena Cabal, CIEMAT; Maurizio Gargiulo, E4SMA srl; Development of an Energy-Efficient 2CO Capture João Pedro Gouveia, CENSE; Maryse Labriet, ENERIS; Process using Thermomorphic Biphasic Solvents Gian Carlo Tosato, ASATREM srl Jiafei Zhang, Yu Qiao, Wanzhong Wang, Khuram Hussain, David Agar, Technical University of Dortmund Basin-Scale Impacts of Industrial-Scale CO2 Injection on Petroleum and Groundwater Resources in the Low Temperature CO2 Capture for Near-Term Gippsland Basin, Australia Applications Karsten Michael, Sunil Varma, CSIRO Earth Science Nikolett Sipöcz, Alvaro Hernandes, Miguel A, & Resource Engineering; Elise Bekele, CSIRO Land Gonzalez-Salazar, GE Global Research; Roger Shisler, & Water; Monica Campi, Geoff O’Brien, GeoScience Vitali Lissianski, GE Global Research Victoria, Department of Primary Industries Session 8F - Monitoring: Geophysical Imaging Session 8D - Panel Discussion: Storage Capacity – What Do We Know and What Has Changed? Session Chairs: Pascal Audigane & Curtis Oldenburg Geochemical Interactions Between CO and Minerals This panel will discuss the critical issue of storage 2 capacity. How to we define it? How do we know how within the Utsira Caprock: A 5-year Experimental much is available? What progress has been made in Study the past few years in refining global, regional and local Keith Bateman, Chrisopher Rochelle, Gemma Purser, estimates? In addition we will address important issues Simon Kemp, Doris Wagner, British Geological Survey such as, how might pressure buildup limit storage Geochemical Clogging in Fracture and Porous Rock capacity and how could this be managed; and to what for CO2 Mineral Trapping extent microseismicity and associated changes to Seung Youl Yoo, Yoshitada Mito, Toshifumi Matsuoka, the seal constrain the locations where CO2 is stored. Kyoto University; Akira Ueda, University of Toyama Research leaders from around the world will provide The Impact of Geomechanics on Monitoring a status report about these issues and insights about Techniques for CO Injection and Storage what more is needed to improve our confidence in 2 Tom Lynch, Doug Angus, Quentin Fisher, Piroska storage capacity estimation. Lorinczi, University of Leeds
www.ghgt.info • [email protected] Changes in Pore Structure and Connectivity Induced Dissipation of Overpressure into Ambient Rocks
CO2 Injection in Carbonates: a Combined Pore-Scale During CO2 Storage Approach Kyung Won Chang, Marc Hesse, The University of Texas Oussama Gharbi, Branko Bijeljic, Martin Blunt, Imperial at Austin; Jean-Philippe Nicot, The University of Texas College London; Edo Boek, Imperial College London Reservoir Management of CO2 Injection: Pressure Session 8G - Education Control and Capacity Enhancement Bramshad Nazarian, Rudolf Held, Lars Høier, Philip Session Chairs: Jurgen-Friedrich Hake & Ringrose, NTNU Malcolm Wilson Magnitude and Duration of Temperature Changes in Scope, Characteristics and Quality of Education Geological Storage of Carbon Dioxide Materials on CCS for the School Sector Around the Tara LaForce, Jonathan Ennis-King, Lincoln Paterson, World: Addressing and Trialling the Gaps CO2CRC/CSIRO Earth Science and Resource Anne-Maree Dowd, Talia Jeanneret; CSIRO 34 Engineering Creating a Sequestration Capacity Building and Session 9B - Chemical Looping Knowledge Sharing Center Sallie Greenberg, Illinois State Geological Survey Session Chairs: Olav Bolland & Jasmin Kemper Developing National CCS Capacity and Skills: 10 MW CLC Field Pilot Examples from the UK Song P. Sit, Alex Reed, Cenovus Energy Inc.; Ulrich Robin Cathcart, Elizabeth Van der Meer, UK CCS Hohenwarter, Viktoria Horn, Andritz Energy & Community Network; Hannah Chalmers, Jon Gibbins, Envrionment; Tobias Proll, Marx Klemens, Vienna UK CCS Community Network and University of University of Technology Edinburgh; Colin Snape, University of Nottingham Chemical-Looping Combustion of Solid Fuels – China-Australia Capacity Building Program on the Operational Experiences in 100 kW Dual Circulating Geological Storage of Carbon Dioxide - Results from Fluidized Bed System Phase I Anders Lyngfelt, Pontus Markström, Carl Linderholm, Richard Causebrook, Aleksandra Kalinowski, Jessica Chalmers University of Technology Gurney, Liuqi Wang, Geoscience Australia; Jiutian Next Scale Chemical Looping Combustion: Process Zhang, Jia Li, Administrative Centre for China’s Agenda Integration and Part Load Investigation for a 10MW 21 Demonstration Unit David Riestenberg, Shawna Cyphers, Karine Schepers, Geroge Koperna, BERTSCHenergy, Josef Bertsch TechnicalSession Gesellschaft m.b.H. & Co. KG 9 Integration of Coal Gasification and Packed Bed CLC Process for High Efficiency and Near-Zero Emission Power Generation Matteo Carmelo Romano, Paolo Chiesa, Vincenzo Session 9A - Reservoir Engineering: Pressure Spallina, Giovanni Lozza, Politecnico di Milano Management Use of Chemical-Looping Processes for Coal Session Chairs: Chris Hawkes & Neil Wildgust Combustion with CO2 Capture An Integrated Economic and Engineering Juan Adanez, Pilar Gayan, Iñaki Adanez-Rubio, Ana
Assessment of Opportunities for CO2 Injection with Cuadrat, Alberto Abad, Francisco Garcia-Labiano, Luis Water Production in the South-East Queensland, Francisco de Diego, Instituto de Carboquimica- CSIC Australia Session 9C - Policy: Other Peter Neal, Yildiray cinar, Guy Allinson, CO2CRC, Australia and School of Petroleum Engineering, The Session Chairs: Tim Dixon & Helle Brit Mostad University of New South Wales Analysing Uncertainties for CCS: from Historical Four-Site Case Study of Water Extraction from Analogues to Future Deployment Pathways in the UK Carbon Dioxide Storage Reservoirs Jim Watson, University of Sussex; Florian Kern, Nils Guoxiang Liu, Charles Gorecki, Jordan Bremer, Ryan Markusson, Hannah Chalmers, Stuart Haszeldine, Jon Klapperich, Robert Cowan, Yevhen Holubnyak, Damion Gibbins, Mark Winskel, University of Edinburgh; Rob Knudsen, Dayanand Saini, EERC Gross, Phil Heptonstall, Imperial College London; Peter Pearson, University of Cardiff CCS, Nuclear Power and Biomass; an Assessment of Session 9E - Oxy-Combustion: CO2 Processing Unit Option Triangle under Global Warming Mitigation Session Chairs: Stanley Santos & Phil Sharman Policy by an Integrated Assessment Model MARIA-23 Shunsuke Mori, Keisuke Miyaji, Kazuhisa Kamgai, Modelling the Fate of Sulphur During Pulverized Tokyo University of Science Coal Combustion under Conventional and Oxyfuel Conditions Prospects for CCS in the EU Energy Roadmap to 2050 Michael Müller, Uwe Schnell, Günter Scheffknecht, Mikael Odenberg, Jan Kjärstad, Filip Johnsson, University of Stuttgart Chalmers University of Technology Optimized Multi-Pollutant Removal in Oxy-Fuel Rethinking CCS – Developing Quantitative Tools for Power Plants with CO Capture Designing Robust Policy in Face of Uncertainty 2 Ahmed Shafeen, Kourosh Zanganeh, Ashkan Jan Eide, Howard Herzog, Mort Webster, Massachusetts Beigzadeh, Natural Resources Canada Institute of Technology Offgas Treatment After the Gas Processing Unit of Actuarial Risk Assessment of Expected Fatalities 35 a Coal-Fired Oxyfuel Power Plant with Polymeric Attributable to Carbon Capture and Storage in 2050 Membranes and Pressure Swing Adsorption Min Ha-Duong, Rodica Loisel, CIRED, CNRS Jens Dickmeis, Alfons Kather, Hamburg University of Session 9D - Public Perception: Communication Technology Activities and Experiences Optimization of Cryogenic CO2 Purification for Oxy- Session Chairs: Peta Ashworth & Kenshi Itaoka Coal Combustion Hailong Li, Mälardalens University; Yukun Hu, Royal It’s Not Only About Safety: Beliefs and Attitudes Institute of Technology; Mario Ditaranto, SINTEF of 811 Local Residents Regarding a CCS project in Energy; David Wilson, Stanbridge Capital; Jinyue Barendrecht Yan, Mälardalens University and Royal Institute of Bart Terwel, Emma ter Mors, Dancker Daamen, Leiden Technology University Simultaneous NOx and SOx Reduction from Oxyfuel Lessons Learned from the Public Perception and Exhaust Gases using Acidic Solutions Containing Engagement Strategy - Experiences in CIUDEN’s CCS Hydrogen Peroxide Facilities in Spain Isabelle Liémans, Diane Thomas, Chemical Monica Lupion, Andrea Pérez, Fernando Torrecilla, Engineering Department, University of Mons Fernando Torrecilla, CIUDEN Session 9F - Trapping Mechanisms: Geochemical Application of Social Site Characterisation to Inform Public Engagement Efforts in Poland and the UK Session Chairs: Toshiyuki Tosha & Don White Suzanne Brunsting, Mariëtte Pol, ECN; Marta Kaiser, Thin Layer Detectability in a Growing CO Plume; Rene Zimmer, UfU; Simon Shackley, Leslie Mabon, The 2 Testing the Limits of Time-Lapse Seismic Resolution University of Edinburgh; Fiona Hepplewhite, Scottish James White, Andy Chadwick, Gareth Williams, British Government; Marcin Mazurowski, Dorota Polak- Geological Survey Osiniak, PGNiG Tracing the Movement and the Fate of Injected The Evolution of Stakeholder Perceptions of CO at the IEA Weyburn-Midale CO Monitoring Deploying CCS Technologies in China: Survey Results 2 2 and Storage Project (Saskatchewan, Canada) using from Three Stakeholder Consultations in 2006, 2009 Isotopic Tracers and 2012 Bernhard Mayer, Michael Nightingale, Maurice Xi Liang, University of Edinburgh; David Rainer, Shevalier, Gareth Johnson, Ian Hutcheon, University of University of Cambridge Calgary; Ernie Perkins, Alberta Innovates - Technology Visual Message Mapping for CCS Outreach Futures Daniel Daly, EERC; Lydia Cumming, Pacific Northwest Introduction and Application of the Modified Patchy Laboratory; Gary Garrett, Southern States Energy Saturation for Evaluating CO Saturation by Seismic Board; Marian Stone, Bevilacqua-Knight, Inc.; Mather 2 Velocity Cather, New Mexico Tech; Lindsey Tollefson, Big Sky Hiroyuki Azuma, OYO corporation; Chrisato Konishi, Carbon Sequestration Partnership; Sarah Wade, WADE, Stanford University; Zique Xue, RITE LLC
www.ghgt.info • [email protected] Electrical Resistivity Tomography (ERT) for
Monitoring CO2 Migration - from Tool Development to Reservoir Surveillance at the Ketzin Pilot Site TechnicalSession Cornelia Schmidt-Hattenberger, Peter Bergmann, Tim 10 Labitzke, Marcus Möller, Stephan Schröder, Florian Wagner, Helmholtz Centre Potsdam, GFZ German Research Centre for Geosciences; Harmut Schütt, Session 10A - Risk Assessment and Management II Statoil ASA Session Chairs: Max Prins & Isabelle Czernichowski-Lauriol Evaluating Wellbore Gravity for Time-Lapse CO2 Plume Detection Geomechanical Modeling of Fault Responses and Kevin Dodds, BP Alternative Energy; Richard the Potential for Notable Seismic Events During Krahenbuhl, Yaoguo Li, Anya Reitz, Center for Gravity, Underground CO2 Injection Electrical & Magnetic Studies, Colorado School of Jonny Rutqvist, Frederic Cappa, Alberto Mosaldi, 36 Mines; Susan Hovorka, Gulf Coast Carbon Center, Antonio Rinaldi, Lawrence Berkeley National Bureau of Economic Geology Laboratory Session 9G - Transport and Infrastucture Safety-Based Injection Strategy for Carbon Dioxide Session Chair: Andrea Ramirez Geological Sequestration in a Deep Saline Aquifer with Complex Sandstone-Shale Sequences: A Case Accurate Thermodynamic-Property Models for CO2- Study from Taiwan Rich Mixtures Bieng-Zih Hsieh, Cheng-Yueh Wu, Zsay-Shing Lin, Roland Span, Johannes Gernert, Andreas Jäger, Ruhr- National Cheng Kung University; Ch-Chung Tseng, Universität Bochum Ta-Lin Chen, CPC Corporation Combining Thermodynamic and Fluid Flow Migration of CO2 Through the Overburden and Modelling for CO2 Flow Assurance Potential Effects of Leakage on the Seafloor Svend Tol Munkejord, Mona Mølnvik, SINTEF Energy Environment: A Summary from QICS Work Package 1 Research; Christian Bernstone, Vattenfall Research and Beil Burnside, Mark Naylor, University of Edinburgh; Development AB; Sigmund Clausen, Gassco AS; Gelein Karen Kirk, British Geological Survey; Simon Mathias, de Koeijer, Statoil R&D University of Durham; Fiona Whittaker, University of Bristol Heat Transfer Characteristics of a Pipeline for CO2 Transport with Various Surrounding Substances The Bubble/Slug Flow Model for Methane Leakage Michael Drescher, Øivind Wilhelmsen, Peder Aursand, from Natural Gas Wells as an Analogue for Shallow SINTEF Energy Research; Gelein de Koeijer, Rudolf CO2 Migration Held, Jan H. Borch, Statoil ASA Ian Duncan, BEG, University of Texas at Austin
Corrosion in Dense Phase CO2 – the Impact of Session 10B - Post-Combustion: Design Depressurisation and Accumulation of Impurities Arne Dugstad, Bjørn Morland, Malgorzata Halseid, Session Chairs: John Topper & Anne Olaug Sivertsen, Institute for Energy Technology Mohammad Abu Zahra Corrosion Mechanism and Impact Factor Analysis of Characterization of Novel Packings for Post Combustion Capture Pipeline Steel in Supercritical CO2 with Impurities Yong Xiang, Zhe Wang, Zheng Li Weidou Ni, Tsinghua Chao Wang, Micah Perry, Frank Seibert, Gary Rochelle, University University of Texas at Austin Numerical and Experimental Study on Liquid Film Flows on Packing Elements in Absorbers for Post-
Combustion CO2 Capture Yoshiyuki Iso, Jian Huang, Mariko Kato, Shinsuke Matsuno, Kenji Takano, IHI Corporation
Novel Solvent-Gas Contactor for CO2 Cost Reductions Brandon Pavlish, Joel Downs, Nathan Fiala, EERC Encapsulated Solvents for Carbon Dioxide Capture Roger Aines, Christopher Spadaccini, Eric Duoss, Joshuah Stolaroff, Lawrence Livermore National Laboratory; John Vericella, Jennifer Lewis, University of Illinois Urbana/Champaign; George Farthing, Babcock and Wilcox Company Session 10C - Emerging Technologies Session 10E - Pre-Combustion: Technology Session Chair: Steve Goldthorpe Session Chairs: Daan Jansen & John Davison Enhanced Oil Recovery Method using Carbonated A Novel Adsorbent Material (MOF/MCM-41) for
Water Flooding Pre-Combustion CO2 Capture by Pressure Swing Lin Zuo, Sally Benson, Energy Resources Engineering, Adsorption Stanford University; Changyon Zhang, Environmental Nathalie Cass, Johanna Schell, Lisa Joss, Marco Molecular Sciences Laboratory, Richland Mazzotti, Institute of Process Engineering, ETH Zurich; Richard Blom, SINTEF Materials and Chemistry Utilization of Carbon Dioxide as a Cushion Gas for
Compressed Air Energy Storage Advanced CO2 Seperation Technologies: Coal Curtis Oldenburg, Lehua Pan, Lawrence Berkeley Gasification, Warm-Gas Cleanup, and Hydrogen National Laboratory Seperation Membranes Joshua Stanislow, Scott Tolbert, Tyler Curran, EERC Identification of New Microbial Mediators for 37 Electromethanogenic Reduction of Geologically- High Performance CO2 Capture by Autothermal AGR Stored Carbon Dioxide System Qian Fu, Hajime Kobayashi, Hideo Kawaguchi, Javier Yasushi Mori, Mitsubishi Heavy Industries Compressor Vilcáez, Kozo Sato, The University of Tokyo Corporation; Jonathan Forsyth, BP Alternative Energy International Ltd CO2 Utilization from “Next Generation” CO2
Enhanced Oil Recovery Coal-CO2-Slurry Feed for Pressurised Gasifiers: Slurry Vello Kuuskraa, Tyler Van Leeuwen, Advanced Preparation System Characterisation and Economics Resources International, Inc.; Phil Dipietro, U.S. DOE/ Cristina Botero, Howard Herzog, Ahmned Ghoniem, National Energy Technology Laboratory Massachusettes Institute of Technology Session 10D - Public Perception: Social Science Session 10F - Trapping Mechanisms: Capillarity and Research Heterogeneity Session Chairs: Peta Ashworth & David Reiner Session Chairs: James Sorensen & Sam Holloway Relating Individual Perceptions of Carbon Dioxide Clay Hydration/Dehydration in Dry to Water- to Perceptions of CCS: An International Comparative Saturated Supercritical CO2: Implications for Caprock Study Integrity Kenji Itaoka, Aya Saito, Mizuho Information & Research John Loring, Todd Schaef, Chris Thompson, Quinn Institute; Anne-Marie Dowd, Peta Ashworth, CSIRO; Miller, Jianzhi Hu, David Hoyt, Paul Martin, Eugene Marjolein de Best-Waldhober, ECN Ilton, Andrew Felmy, Kevin Rosso, Pacific Northwest National Laboratory Exploring Media Representation of Carbon Capture and Storage: An Analysis of Japanese Newspaper Capillary Heterogeneity in Sandstones Rocks During
Coverage in 1990-2010 CO2/Water Core-Flooding Experiments Shinichiro Asayma, Atsushi Ishii, Tohoku University Ronny Pini, Mike Krause, Sally Benson, Stanford University; Sam Krevor, Imperial College London CO2CRC Otway Project Social Research: Assessing CCS Community Consultation Seal Integrity of the Rousse Depleted Gas Field
Tony Steeper, CO2CRC Impacted by CO2 Injection (Lacq Industrial CCS Reference Project - France) The Potential of Host Community Compensation in Dominique Pourtoy, Marc Lescanne, Sylvian Thibeau, Facility Siting Atef Onaisi, Calire Viaud, TOTAL E&P Emma ter Mors, Bart W. Terwel, Dancker Daamen, Leiden University Estimation of Local Capillary Trapping Capacity from Geologic Models Eshan Saadatpoor, Steven Bryant, Kamy Sepehrnoori, The University of Texas at Austin
www.ghgt.info • [email protected] Session 10G - Other Underground Storage Options Potential Subsurface Impacts of CO2 Stream Impurities on Geologic Carbon Storage Session Chairs: Malcolm Wilson & Alain Bonneville Jean-Philippe Nicot, Katherine Romanak, Patrick
Geochemical Aspects of In-Situ Mineralization of CO2 Mickler, Silvia Solano, Changbing Yang, Jiemen Lu, in Seafloor Basalts in the Presence of Seawater Tongwei Zhang, Bureau of Economic Geology, The Dominic Wolff-Boenisch, Iwona Galeczka, Sigurdur University of Texas at Austin Gislason, University of Iceland, Eric Oelkers, Université Session 11B - Post-Combustion: Solvent de Toulouse Fundamentals Mineralization of Basalts in the CO -H O-H S System 2 2 2 Session Chairs: Takayuki Higashii & Prachi Singh H.T Schaef, B.P. McGrail, A.T Owen, Pacific Northwest National Laboratory Corrosion Investigations in MEA Based Post- Combustion CO Capture Pilot Plants CO Injectivity in a Multi-Lateral Horizontal Well in 2 2 Séverine De Vroey, Pascale Absil, Marie-Laure Thielens, a Low Permeability Coal Seam: Results from a Field 38 Laborelec Trial
Zhejun Pan, Luke Connel, Michael Camilleri, Dave Corrosivity of Single and Blended Amines in CO2 Down, John Carras, Meng Lu, CSIRO; Shangzhi Meng, Capture Process Xiaokang Fu, Wenzhong Zhang, Benguang Guo, Prakashpathi Gunasekaran, Amornvadee (Amy) CUCBM Veawab, Adisorn Aroonwilas, University of Regina
Feasibility Study on CO2 Micro Bubble Storage (CMS) Prediction of N2O Solubilities in Alkanolamine Kenichirou Suzuki, Takashi Hitomi, Masato Shimoyama, Solutions from the Excess Volume Property Obayashi Corporation; Hideaki Miida, Hiroshi Wada, Ardi Hartono, Emmanuel Mba, Hallvard Svendsen, ENAA, Shigeo Horikawa, Suncoh Consultants Co. NTNU Ltd.; Takeyuki Ebi, Kajima Corporation, Kaoru Inaba, Solids Modelling and Capture Simulation of Takenaka Corporation Piperazine in Potassium Solvents Philip Loldrup Fosbøl, Bjørn Maribo-Mogensen, Kaj Thomsen, The Technical University of Denmark TechnicalSession 11 Session 11C - CCS and Geothermal Session Chairs: Gunter Sidiqi & Samantha Neades Integrated Geothermal-CO Reservoir Systems: Session 11A - Modeling: Reservoir-Scale Flow and 2 Reducing Carbon Intensity Through Sustainable Transport Energy Production and Secure CO2 Storage Session Chairs: Philip Ringrose & Thomas A. Buscheck, Mingjie Chen, Yunwei Sun, Yue Jonathan Ennis King Hao, Chuanhe Lu, Thomas J. Wolery, Roger D. Aines, Lawrence Livermore National Laboratory; Michael A. Geochemical Reservoir Simulation of the Weyburn Celia, Princeton University CO2-EOR Field Stephen Talman, Ernie Perkins, Alireza Jafari, Alberta Geothermal Energy Production Coupled With CCS: Innovates - Technology Futures; Maurice Shevalier, Field Demonstration at the SECARB Cranfield Site, University of Calgary Cranfield, Mississippi, USA Barry Friefeld, Christine Doughty, Lawrence Berkeley The Effect of Geological Structure and Heterogeneity National Laboratory; Bruce Cutright, University of on CO Storage in Simple 4-way Dip Structures; a 2 Texas; Steve Zakim, Ming Sheu, Timothy Held, Echogen Modelling Study from the UK Southern North Sea Power Systems, LLC John Williams, Michelle Bentham, British Geological Survey; Min Jin, Gillain Pickup, Eric Mackay, Heriot-Watt From Competition to Synergy - Support Geothermal
University; Dennis Gammer, Andrew Green, Energy Exploitation by Geological CO2 Storage Technologies Institute Elena Tillner, Thomas Kempka, Egbert Jolie, Michael Kühn, GFZ German Research Centre for Geosciences Sensitivity of Long-Term CO2 Sequestration Simulation Result to the Treatment of Capillary Entry Synergy Benefits in Combining CCS and Geothermal Pressure Energy Production Baxiao Li, Hamdi Tchelepi, Sally Benson, Stanford Carsten M. Nielson, Peter Frykman, Geological Survey University of Denmark and Greenland; Finn Dalhoff, Vattenfall Research & Development AB Session 11D - Risk Management: Contingency Session 11F - Ex Situ Mineralisation of CO2 Planning and Remediation Session Chair: Millie Basava-Reddi Session Chairs: Bill Senior & Rajesh Pawar Integrated Mineral Carbonation Reactor Technology
CO2 Storage Contingencies Initiative: Detection, for Sustainable Carbon Dioxide Sequestration: ‘CO2
Intervention and Remediation of Unexpected CO2 Energy Reactor’ Migration Rafael Santos, Wouter Verbeek, Jens van Bouwel, Tom Scott Imbus, Chevron Energy Technology Co.; Kevin Van Gerven, Yiannis Pontikes, KU Leuven; Pol Knops, Dodds, BP AlternativEnergy; Robert Trautz, Electric Keesjan Rijnsburger, Innovation Concepts B.V. Power Research Institute; Claus Otto, Shell Global Carbon Storage by Mineralisation (CSM): Solutions International; Charles Christopher, CO2Store; Serpentinite Rock Carbonation Via Mg(OH)2 Sally Benson, Stanford University Reaction Intermediate Without CO2 Pre-Separation
How to Establish CO2 Flow/Concentration Warning Ron Zevenhoven, Johan Fagerlund, Experience Levels Based on the Geochemical Monitoring Nduagu, Inês Romão, Åbo Akademi University; Jie Bu, 39
Baseline: Specific Case of CO2 Storage at Claye- James Highfield, ICES - A*STAR Souilly (Paris Basin) Assessment of the Energy Requirements for CO Natalia Quisel, Stéphane Thomas, VEOLIA 2 Storage by Carbonation of Industrial Residues Environnement Recherche & Innovation; Jacques Renato Baciocchi, Giulia Costa, Daniela Zingaretti, Pironon, Philippe de Donato, Judith Saussea, Odile University of Rome Tor Vergata Barres, MAGES group, Université de Lorraine-CNRS; Zbigniew Pokryszka, INERIS, ParcTechnologique Alata Carbonation of Activated Serpentine for Direct Flue Gas Mineralization Natural Mitigation of CO Leakage Accumulations: 2 Mischa Werner, Subrahmaniam Hariharan, Marco Jean-Charles Manceau, Jérémy Rohmer, Arnaud Mazzotti, ETH Zurich; Renato Baciocchi, Daniela Réveillère, BRGM Zingaretti, University of Rome Tor Vergata Estimating CO Leakage Rate Along a Fault: Model 2 Session 11G - Oxy-Combustion: Large Scale and Field Application Implementation Qing Tao, Steven Bryant, The University of Texas at Austin; David Alexander, The University of Trinidad and Session Chair: Olav Bolland Tobago Initial Operation Results of Oxyfuel Power Plant in Session 11E - System Integration III: Other Callide Oxyfuel Project Takahiro Gotou, Terutoshi Uchida Toshihiki Yamada, Session Chairs: Shunsuke Mori & Andrea Ramirez Tetsuya Hori, IHI Corporation; Chris Spero, CS Energy
Evaluation of CO2 Post Combustion Capture Ltd. Integration with Natural Gas Power Plant and Young Dong Unit 1 Oxyfuel Feasibility Study and Desalination Co-Generation Plant FEED Stephen Fadeyi, Hassan Fath, Mohammad Abu-Zahra, Michael Maloney, Konrad Kuczynski, Makesh Masdar Institute of Science and Technology Kaliyaperumal, Doosan Power Systems; H.P. Kim, Investigating Flexible Carbon Capture Opportunities Doosan Heavy Industries & Construction in the Australian Electricity Market The Air Products–Vattenfall Oxyfuel CO Yuanfei Zhang, Monh Ho, Dianne Wiley, The University 2 Compression and Purification Pilot Plant at Schwarze of New South Wales and CO2CRC Pumpe Climate Mitigation’s Impact on Global and Regional Vince White, Andrew Wright, Air Products PLC, Electric Power Sector Water Use in the 21st Century Stephanie Tappe, Vattenfall Europe Generation AG; Evan Davies, University of Alberta; Page Kyle, James Jinying Yan, Vattenfall Research & Development AB Dooley, Pacific Northwest National Laboratory Oxycombustion for Carbon Capture on Coal Power CCS Feasibility Improvement in Industrial and Plants: Advantages, Technical Challenges and Municipal Applications by Heat Utilisation Innovative Mitigation Solutions Janne Kärki, Eemeli Tsupari, Antti Arasto, VTT Technical Nicolas Perrin, Richard Dubettier, Jean-Pierre Tranier, research centre of Finland Air Liquide
www.ghgt.info • [email protected] Poster Floorplan
㻢㻞㻢 㻢㻞㻡 㻢㻞㻠 㻢㻞㻟 㻢㻞㻞 㻢㻞㻝 㻢㻞㻜 㻢㻝㻥 㻢㻝㻤 㻢㻝㻣 㻢㻝㻢 㻢㻝㻡 㻢㻝㻠 㻢㻝㻟 㻢㻝㻞 㻢㻝㻝 㻢㻝㻜 㻢㻜㻥 㻢㻜㻤 㻢㻜㻣 㻢㻜㻢 The Poster Sessions will be held in the Event Hall, as indicated on the 㻡㻤㻝 㻡㻤㻞 㻡㻤㻟 㻡㻤㻠 㻡㻤㻡 㻡㻤㻢 㻡㻤㻣 㻡㻤㻤 㻡㻤㻥 㻡㻥㻜 㻡㻥㻝 㻡㻥㻞 㻡㻥㻟 㻡㻥㻠 㻡㻥㻡 㻡㻥㻢 㻡㻥㻣 㻡㻥㻤 㻡㻥㻥 㻢㻜㻜 㻢㻜㻝 㻢㻜㻞 㻢㻜㻟 㻢㻜㻠 㻢㻜㻡 floorplan on page 19. 㻡㻤㻜 㻡㻣㻥 㻡㻣㻤 㻡㻣㻣 㻡㻣㻢 㻡㻣㻡 㻡㻣㻠 㻡㻣㻟 㻡㻣㻞 㻡㻣㻝 㻡㻣㻜 㻡㻢㻥 㻡㻢㻤 㻡㻢㻣 㻡㻢㻢 㻡㻢㻡 㻡㻢㻠 㻡㻢㻟 㻡㻢㻞 㻡㻢㻝 㻡㻢㻜 㻡㻡㻥 㻡㻡㻤 㻡㻡㻣 㻡㻡㻢 Posters shown here in Blue will be presented in Poster Session A 㻡㻟㻝 㻡㻟㻞 㻡㻟㻟 㻡㻟㻠 㻡㻟㻡 㻡㻟㻢 㻡㻟㻣 㻡㻟㻤 㻡㻟㻥 㻡㻠㻜 㻡㻠㻝 㻡㻠㻞 㻡㻠㻟 㻡㻠㻠 㻡㻠㻡 㻡㻠㻢 㻡㻠㻣 㻡㻠㻤 㻡㻠㻥 㻡㻡㻜 㻡㻡㻝 㻡㻡㻞 㻡㻡㻟 㻡㻡㻠 㻡㻡㻡 on Tuesday the 20th of November, 㻡㻟㻜 㻡㻞㻥 㻡㻞㻤 㻡㻞㻣 㻡㻞㻢 㻡㻞㻡 㻡㻞㻠 㻡㻞㻟 㻡㻞㻞 㻡㻞㻝 㻡㻞㻜 㻡㻝㻥 㻡㻝㻤 㻡㻝㻣 㻡㻝㻢 㻡㻝㻡 㻡㻝㻠 㻡㻝㻟 㻡㻝㻞 㻡㻝㻝 㻡㻝㻜 㻡㻜㻥 㻡㻜㻤 㻡㻜㻣 㻡㻜㻢 40 between 13.40 - 15.40. Posters shown here in Black, will 㻠㻤㻝 㻠㻤㻞 㻠㻤㻟 㻠㻤㻠 㻠㻤㻡 㻠㻤㻢 㻠㻤㻣 㻠㻤㻤 㻠㻤㻥 㻠㻥㻜 㻠㻥㻝 㻠㻥㻞 㻠㻥㻟 㻠㻥㻠 㻠㻥㻡 㻠㻥㻢 㻠㻥㻣 㻠㻥㻤 㻠㻥㻥 㻡㻜㻜 㻡㻜㻝 㻡㻜㻞 㻡㻜㻟 㻡㻜㻠 㻡㻜㻡 be presented in Poster Session B on 㻠㻤㻜 㻠㻣㻥 㻠㻣㻤 㻠㻣㻣 㻠㻣㻢 㻠㻣㻡 㻠㻣㻠 㻠㻣㻟 㻠㻣㻞 㻠㻣㻝 㻠㻣㻜 㻠㻢㻥 㻠㻢㻤 㻠㻢㻣 㻠㻢㻢 㻠㻢㻡 㻠㻢㻠 㻠㻢㻟 㻠㻢㻞 㻠㻢㻝 㻠㻢㻜 㻠㻡㻥 㻠㻡㻤 㻠㻡㻣 㻠㻡㻢 Wednesday the 21st of November, between 13.40 - 15.40. 㻠㻟㻝 㻠㻟㻞 㻠㻟㻟 㻠㻟㻠 㻠㻟㻡 㻠㻟㻢 㻠㻟㻣 㻠㻟㻤 㻠㻟㻥 㻠㻠㻜 㻠㻠㻝 㻠㻠㻞 㻠㻠㻟 㻠㻠㻠 㻠㻠㻡 㻠㻠㻢 㻠㻠㻣 㻠㻠㻤 㻠㻠㻥 㻠㻡㻜 㻠㻡㻝 㻠㻡㻞 㻠㻡㻟 㻠㻡㻠 㻠㻡㻡 㻠㻟㻜 㻠㻞㻥 㻠㻞㻤 㻠㻞㻣 㻠㻞㻢 㻠㻞㻡 㻠㻞㻠 㻠㻞㻟 㻠㻞㻞 㻠㻞㻝 㻠㻞㻜 㻠㻝㻥 㻠㻝㻤 㻠㻝㻣 㻠㻝㻢 㻠㻝㻡 㻠㻝㻠 㻠㻝㻟 㻠㻝㻞 㻠㻝㻝 㻠㻝㻜 㻠㻜㻥 㻠㻜㻤 㻠㻜㻣 㻠㻜㻢
㻟㻤㻟 㻟㻤㻠 㻟㻤㻡 㻟㻤㻢 㻟㻤㻣 㻟㻤㻤 㻟㻤㻥 㻟㻥㻜 㻟㻥㻝 㻟㻥㻞 㻟㻥㻟 㻟㻥㻠 㻟㻥㻡 㻟㻥㻢 㻟㻥㻣 㻟㻥㻤 㻟㻥㻥 㻠㻜㻜 㻠㻜㻝 㻠㻜㻞 㻠㻜㻟 㻠㻜㻠 㻠㻜㻡 㻟㻤㻞 㻟㻤㻝 㻟㻤㻜 㻟㻣㻥 㻟㻣㻤 㻟㻣㻣 㻟㻣㻢 㻟㻣㻡 㻟㻣㻠 㻟㻣㻟 㻟㻣㻞 㻟㻣㻝 㻟㻣㻜 㻟㻢㻥 㻟㻢㻤 㻟㻢㻣 㻟㻢㻢 㻟㻢㻡 㻟㻢㻠 㻟㻢㻟 㻟㻢㻞 㻟㻢㻝 㻟㻢㻜
㻟㻟㻤 㻟㻟㻥 㻟㻠㻜 㻟㻠㻝 㻟㻠㻞 㻟㻠㻟 㻟㻠㻠 㻟㻠㻡 㻟㻠㻢 㻟㻠㻣 㻟㻠㻤 㻟㻠㻥 㻟㻡㻜 㻟㻡㻝 㻟㻡㻞 㻟㻡㻟 㻟㻡㻠 㻟㻡㻡 㻟㻡㻢 㻟㻡㻣 㻟㻡㻤 㻟㻡㻥 㻟㻟㻣 㻟㻟㻢 㻟㻟㻡 㻟㻟㻠 㻟㻟㻟 㻟㻟㻞 㻟㻟㻝 㻟㻟㻜 㻟㻞㻥 㻟㻞㻤 㻟㻞㻣 㻟㻞㻢 㻟㻞㻡 㻟㻞㻠 㻟㻞㻟 㻟㻞㻞 㻟㻞㻝 㻟㻞㻜 㻟㻝㻥 㻟㻝㻤 㻟㻝㻣 㻟㻝㻢
㻞㻥㻠 㻞㻥㻡 㻞㻥㻢 㻞㻥㻣 㻞㻥㻤 㻞㻥㻥 㻟㻜㻜 㻟㻜㻝 㻟㻜㻞 㻟㻜㻟 㻟㻜㻠 㻟㻜㻡 㻟㻜㻢 㻟㻜㻣 㻟㻜㻤 㻟㻜㻥 㻟㻝㻜 㻟㻝㻝 㻟㻝㻞 㻟㻝㻟 㻟㻝㻠 㻟㻝㻡 㻞㻥㻟 㻞㻥㻞 㻞㻥㻝 㻞㻥㻜 㻞㻤㻥 㻞㻤㻤 㻞㻤㻣 㻞㻤㻢 㻞㻤㻡 㻞㻤㻠 㻞㻤㻟 㻞㻤㻞 㻞㻤㻝 㻞㻤㻜 㻞㻣㻥 㻞㻣㻤 㻞㻣㻣 㻞㻣㻢 㻞㻣㻡 㻞㻣㻠 㻞㻣㻟 㻞㻣㻞
㻞㻠㻣 㻞㻠㻤 㻞㻠㻥 㻞㻡㻜 㻞㻡㻝 㻞㻡㻞 㻞㻡㻟 㻞㻡㻠 㻞㻡㻡 㻞㻡㻢 㻞㻡㻣 㻞㻡㻤 㻞㻡㻥 㻞㻢㻜 㻞㻢㻝 㻞㻢㻞 㻞㻢㻟 㻞㻢㻠 㻞㻢㻡 㻞㻢㻢 㻞㻢㻣 㻞㻢㻤 㻞㻢㻥 㻞㻣㻜 㻞㻣㻝 㻞㻠㻢 㻞㻠㻡 㻞㻠㻠 㻞㻠㻟 㻞㻠㻞 㻞㻠㻝 㻞㻠㻜 㻞㻟㻥 㻞㻟㻤 㻞㻟㻣 㻞㻟㻢 㻞㻟㻡 㻞㻟㻠 㻞㻟㻟 㻞㻟㻞 㻞㻟㻝 㻞㻟㻜 㻞㻞㻥 㻞㻞㻤 㻞㻞㻣 㻞㻞㻢 㻞㻞㻡 㻞㻞㻠 㻞㻞㻟 㻞㻞㻞
㻝㻥㻣 㻝㻥㻤 㻝㻥㻥 㻞㻜㻜 㻞㻜㻝 㻞㻜㻞 㻞㻜㻟 㻞㻜㻠 㻞㻜㻡 㻞㻜㻢 㻞㻜㻣 㻞㻜㻤 㻞㻜㻥 㻞㻝㻜 㻞㻝㻝 㻞㻝㻞 㻞㻝㻟 㻞㻝㻠 㻞㻝㻡 㻞㻝㻢 㻞㻝㻣 㻞㻝㻤 㻞㻝㻥 㻞㻞㻜 㻞㻞㻝 㻝㻥㻢 㻝㻥㻡 㻝㻥㻠 㻝㻥㻟 㻝㻥㻞 㻝㻥㻝 㻝㻥㻜 㻝㻤㻥 㻝㻤㻤 㻝㻤㻣 㻝㻤㻢 㻝㻤㻡 㻝㻤㻠 㻝㻤㻟 㻝㻤㻞 㻝㻤㻝 㻝㻤㻜 㻝㻣㻥 㻝㻣㻤 㻝㻣㻣 㻝㻣㻢 㻝㻣㻡 㻝㻣㻠 㻝㻣㻟 㻝㻣㻞
㻝㻠㻣 㻝㻠㻤 㻝㻠㻥 㻝㻡㻜 㻝㻡㻝 㻝㻡㻞 㻝㻡㻟 㻝㻡㻠 㻝㻡㻡 㻝㻡㻢 㻝㻡㻣 㻝㻡㻤 㻝㻡㻥 㻝㻢㻜 㻝㻢㻝 㻝㻢㻞 㻝㻢㻟 㻝㻢㻠 㻝㻢㻡 㻝㻢㻢 㻝㻢㻣 㻝㻢㻤 㻝㻢㻥 㻝㻣㻜 㻝㻣㻝 㻝㻠㻢 㻝㻠㻡 㻝㻠㻠 㻝㻠㻟 㻝㻠㻞 㻝㻠㻝 㻝㻠㻜 㻝㻟㻥 㻝㻟㻤 㻝㻟㻣 㻝㻟㻢 㻝㻟㻡 㻝㻟㻠 㻝㻟㻟 㻝㻟㻞 㻝㻟㻝 㻝㻟㻜 㻝㻞㻥 㻝㻞㻤 㻝㻞㻣 㻝㻞㻢 㻝㻞㻡 㻝㻞㻠 㻝㻞㻟 㻝㻞㻞
㻥㻣 㻥㻤 㻥㻥 㻝㻜㻜 㻝㻜㻝 㻝㻜㻞 㻝㻜㻟 㻝㻜㻠 㻝㻜㻡 㻝㻜㻢 㻝㻜㻣 㻝㻜㻤 㻝㻜㻥 㻝㻝㻜 㻝㻝㻝 㻝㻝㻞 㻝㻝㻟 㻝㻝㻠 㻝㻝㻡 㻝㻝㻢 㻝㻝㻣 㻝㻝㻤 㻝㻝㻥 㻝㻞㻜 㻝㻞㻝 㻥㻢 㻥㻡 㻥㻠 㻥㻟 㻥㻞 㻥㻝 㻥㻜 㻤㻥 㻤㻤 㻤㻣 㻤㻢 㻤㻡 㻤㻠 㻤㻟 㻤㻞 㻤㻝 㻤㻜 㻣㻥 㻣㻤 㻣㻣 㻣㻢 㻣㻡 㻣㻠 㻣㻟 㻣㻞
㻠㻣 㻠㻤 㻠㻥 㻡㻜 㻡㻝 㻡㻞 㻡㻟 㻡㻠 㻡㻡 㻡㻢 㻡㻣 㻡㻤 㻡㻥 㻢㻜 㻢㻝 㻢㻞 㻢㻟 㻢㻠 㻢㻡 㻢㻢 㻢㻣 㻢㻤 㻢㻥 㻣㻜 㻣㻝 㻠㻢 㻠㻡 㻠㻠 㻠㻟 㻠㻞 㻠㻝 㻠㻜 㻟㻥 㻟㻤 㻟㻣 㻟㻢 㻟㻡 㻟㻠 㻟㻟 㻟㻞 㻟㻝 㻟㻜 㻞㻥 㻞㻤 㻞㻣 㻞㻢 㻞㻡 㻞㻠 㻞㻟 㻞㻞
㻝 㻞 㻟 㻠 㻡 㻢 㻣 㻤 㻥 㻝㻜 㻝㻝 㻝㻞 㻝㻟 㻝㻠 㻝㻡 㻝㻢 㻝㻣 㻝㻤 㻝㻥 㻞㻜 㻞㻝
Entrance Poster Desk
㻳㻴㻳㼀㻙㻝㻝㻌㻼㼛㼟㼠㼑㼞㻌㼚㼡㼙㼎㼑㼞㻌㼙㼍㼤㻢㻞㻢㼋㻝㻜㻞㻠㼥㼥㻌㻌㻢㻞㻢㻙㻝㻜㻞㻠㼥㼥㻙㼚㼡㼙㼎㼑㼞㻌㼜㼍㼟㼠㼑㼐㻙㼒㼛㼞㼀㻭 㻢㻞㻢 㻢㻞㻡 㻢㻞㻠 㻢㻞㻟 㻢㻞㻞 㻢㻞㻝 㻢㻞㻜 㻢㻝㻥 㻢㻝㻤 㻢㻝㻣 㻢㻝㻢 㻢㻝㻡 㻢㻝㻠 㻢㻝㻟 㻢㻝㻞 㻢㻝㻝 㻢㻝㻜 㻢㻜㻥 㻢㻜㻤 㻢㻜㻣 㻢㻜㻢
㻡㻤㻝 㻡㻤㻞 㻡㻤㻟 㻡㻤㻠 㻡㻤㻡 㻡㻤㻢 㻡㻤㻣 㻡㻤㻤 㻡㻤㻥 㻡㻥㻜 㻡㻥㻝 㻡㻥㻞 㻡㻥㻟 㻡㻥㻠 㻡㻥㻡 㻡㻥㻢 㻡㻥㻣 㻡㻥㻤 㻡㻥㻥 㻢㻜㻜 㻢㻜㻝 㻢㻜㻞 㻢㻜㻟 㻢㻜㻠 㻢㻜㻡 㻡㻤㻜 㻡㻣㻥 㻡㻣㻤 㻡㻣㻣 㻡㻣㻢 㻡㻣㻡 㻡㻣㻠 㻡㻣㻟 㻡㻣㻞 㻡㻣㻝 㻡㻣㻜 㻡㻢㻥 㻡㻢㻤 㻡㻢㻣 㻡㻢㻢 㻡㻢㻡 㻡㻢㻠 㻡㻢㻟 㻡㻢㻞 㻡㻢㻝 㻡㻢㻜 㻡㻡㻥 㻡㻡㻤 㻡㻡㻣 㻡㻡㻢
㻡㻟㻝 㻡㻟㻞 㻡㻟㻟 㻡㻟㻠 㻡㻟㻡 㻡㻟㻢 㻡㻟㻣 㻡㻟㻤 㻡㻟㻥 㻡㻠㻜 㻡㻠㻝 㻡㻠㻞 㻡㻠㻟 㻡㻠㻠 㻡㻠㻡 㻡㻠㻢 㻡㻠㻣 㻡㻠㻤 㻡㻠㻥 㻡㻡㻜 㻡㻡㻝 㻡㻡㻞 㻡㻡㻟 㻡㻡㻠 㻡㻡㻡 㻡㻟㻜 㻡㻞㻥 㻡㻞㻤 㻡㻞㻣 㻡㻞㻢 㻡㻞㻡 㻡㻞㻠 㻡㻞㻟 㻡㻞㻞 㻡㻞㻝 㻡㻞㻜 㻡㻝㻥 㻡㻝㻤 㻡㻝㻣 㻡㻝㻢 㻡㻝㻡 㻡㻝㻠 㻡㻝㻟 㻡㻝㻞 㻡㻝㻝 㻡㻝㻜 㻡㻜㻥 㻡㻜㻤 㻡㻜㻣 㻡㻜㻢 41
㻠㻤㻝 㻠㻤㻞 㻠㻤㻟 㻠㻤㻠 㻠㻤㻡 㻠㻤㻢 㻠㻤㻣 㻠㻤㻤 㻠㻤㻥 㻠㻥㻜 㻠㻥㻝 㻠㻥㻞 㻠㻥㻟 㻠㻥㻠 㻠㻥㻡 㻠㻥㻢 㻠㻥㻣 㻠㻥㻤 㻠㻥㻥 㻡㻜㻜 㻡㻜㻝 㻡㻜㻞 㻡㻜㻟 㻡㻜㻠 㻡㻜㻡 㻠㻤㻜 㻠㻣㻥 㻠㻣㻤 㻠㻣㻣 㻠㻣㻢 㻠㻣㻡 㻠㻣㻠 㻠㻣㻟 㻠㻣㻞 㻠㻣㻝 㻠㻣㻜 㻠㻢㻥 㻠㻢㻤 㻠㻢㻣 㻠㻢㻢 㻠㻢㻡 㻠㻢㻠 㻠㻢㻟 㻠㻢㻞 㻠㻢㻝 㻠㻢㻜 㻠㻡㻥 㻠㻡㻤 㻠㻡㻣 㻠㻡㻢
㻠㻟㻝 㻠㻟㻞 㻠㻟㻟 㻠㻟㻠 㻠㻟㻡 㻠㻟㻢 㻠㻟㻣 㻠㻟㻤 㻠㻟㻥 㻠㻠㻜 㻠㻠㻝 㻠㻠㻞 㻠㻠㻟 㻠㻠㻠 㻠㻠㻡 㻠㻠㻢 㻠㻠㻣 㻠㻠㻤 㻠㻠㻥 㻠㻡㻜 㻠㻡㻝 㻠㻡㻞 㻠㻡㻟 㻠㻡㻠 㻠㻡㻡 㻠㻟㻜 㻠㻞㻥 㻠㻞㻤 㻠㻞㻣 㻠㻞㻢 㻠㻞㻡 㻠㻞㻠 㻠㻞㻟 㻠㻞㻞 㻠㻞㻝 㻠㻞㻜 㻠㻝㻥 㻠㻝㻤 㻠㻝㻣 㻠㻝㻢 㻠㻝㻡 㻠㻝㻠 㻠㻝㻟 㻠㻝㻞 㻠㻝㻝 㻠㻝㻜 㻠㻜㻥 㻠㻜㻤 㻠㻜㻣 㻠㻜㻢
㻟㻤㻟 㻟㻤㻠 㻟㻤㻡 㻟㻤㻢 㻟㻤㻣 㻟㻤㻤 㻟㻤㻥 㻟㻥㻜 㻟㻥㻝 㻟㻥㻞 㻟㻥㻟 㻟㻥㻠 㻟㻥㻡 㻟㻥㻢 㻟㻥㻣 㻟㻥㻤 㻟㻥㻥 㻠㻜㻜 㻠㻜㻝 㻠㻜㻞 㻠㻜㻟 㻠㻜㻠 㻠㻜㻡 㻟㻤㻞 㻟㻤㻝 㻟㻤㻜 㻟㻣㻥 㻟㻣㻤 㻟㻣㻣 㻟㻣㻢 㻟㻣㻡 㻟㻣㻠 㻟㻣㻟 㻟㻣㻞 㻟㻣㻝 㻟㻣㻜 㻟㻢㻥 㻟㻢㻤 㻟㻢㻣 㻟㻢㻢 㻟㻢㻡 㻟㻢㻠 㻟㻢㻟 㻟㻢㻞 㻟㻢㻝 㻟㻢㻜
㻟㻟㻤 㻟㻟㻥 㻟㻠㻜 㻟㻠㻝 㻟㻠㻞 㻟㻠㻟 㻟㻠㻠 㻟㻠㻡 㻟㻠㻢 㻟㻠㻣 㻟㻠㻤 㻟㻠㻥 㻟㻡㻜 㻟㻡㻝 㻟㻡㻞 㻟㻡㻟 㻟㻡㻠 㻟㻡㻡 㻟㻡㻢 㻟㻡㻣 㻟㻡㻤 㻟㻡㻥 㻟㻟㻣 㻟㻟㻢 㻟㻟㻡 㻟㻟㻠 㻟㻟㻟 㻟㻟㻞 㻟㻟㻝 㻟㻟㻜 㻟㻞㻥 㻟㻞㻤 㻟㻞㻣 㻟㻞㻢 㻟㻞㻡 㻟㻞㻠 㻟㻞㻟 㻟㻞㻞 㻟㻞㻝 㻟㻞㻜 㻟㻝㻥 㻟㻝㻤 㻟㻝㻣 㻟㻝㻢
㻞㻥㻠 㻞㻥㻡 㻞㻥㻢 㻞㻥㻣 㻞㻥㻤 㻞㻥㻥 㻟㻜㻜 㻟㻜㻝 㻟㻜㻞 㻟㻜㻟 㻟㻜㻠 㻟㻜㻡 㻟㻜㻢 㻟㻜㻣 㻟㻜㻤 㻟㻜㻥 㻟㻝㻜 㻟㻝㻝 㻟㻝㻞 㻟㻝㻟 㻟㻝㻠 㻟㻝㻡 㻞㻥㻟 㻞㻥㻞 㻞㻥㻝 㻞㻥㻜 㻞㻤㻥 㻞㻤㻤 㻞㻤㻣 㻞㻤㻢 㻞㻤㻡 㻞㻤㻠 㻞㻤㻟 㻞㻤㻞 㻞㻤㻝 㻞㻤㻜 㻞㻣㻥 㻞㻣㻤 㻞㻣㻣 㻞㻣㻢 㻞㻣㻡 㻞㻣㻠 㻞㻣㻟 㻞㻣㻞
㻞㻠㻣 㻞㻠㻤 㻞㻠㻥 㻞㻡㻜 㻞㻡㻝 㻞㻡㻞 㻞㻡㻟 㻞㻡㻠 㻞㻡㻡 㻞㻡㻢 㻞㻡㻣 㻞㻡㻤 㻞㻡㻥 㻞㻢㻜 㻞㻢㻝 㻞㻢㻞 㻞㻢㻟 㻞㻢㻠 㻞㻢㻡 㻞㻢㻢 㻞㻢㻣 㻞㻢㻤 㻞㻢㻥 㻞㻣㻜 㻞㻣㻝 㻞㻠㻢 㻞㻠㻡 㻞㻠㻠 㻞㻠㻟 㻞㻠㻞 㻞㻠㻝 㻞㻠㻜 㻞㻟㻥 㻞㻟㻤 㻞㻟㻣 㻞㻟㻢 㻞㻟㻡 㻞㻟㻠 㻞㻟㻟 㻞㻟㻞 㻞㻟㻝 㻞㻟㻜 㻞㻞㻥 㻞㻞㻤 㻞㻞㻣 㻞㻞㻢 㻞㻞㻡 㻞㻞㻠 㻞㻞㻟 㻞㻞㻞
㻝㻥㻣 㻝㻥㻤 㻝㻥㻥 㻞㻜㻜 㻞㻜㻝 㻞㻜㻞 㻞㻜㻟 㻞㻜㻠 㻞㻜㻡 㻞㻜㻢 㻞㻜㻣 㻞㻜㻤 㻞㻜㻥 㻞㻝㻜 㻞㻝㻝 㻞㻝㻞 㻞㻝㻟 㻞㻝㻠 㻞㻝㻡 㻞㻝㻢 㻞㻝㻣 㻞㻝㻤 㻞㻝㻥 㻞㻞㻜 㻞㻞㻝 㻝㻥㻢 㻝㻥㻡 㻝㻥㻠 㻝㻥㻟 㻝㻥㻞 㻝㻥㻝 㻝㻥㻜 㻝㻤㻥 㻝㻤㻤 㻝㻤㻣 㻝㻤㻢 㻝㻤㻡 㻝㻤㻠 㻝㻤㻟 㻝㻤㻞 㻝㻤㻝 㻝㻤㻜 㻝㻣㻥 㻝㻣㻤 㻝㻣㻣 㻝㻣㻢 㻝㻣㻡 㻝㻣㻠 㻝㻣㻟 㻝㻣㻞
㻝㻠㻣 㻝㻠㻤 㻝㻠㻥 㻝㻡㻜 㻝㻡㻝 㻝㻡㻞 㻝㻡㻟 㻝㻡㻠 㻝㻡㻡 㻝㻡㻢 㻝㻡㻣 㻝㻡㻤 㻝㻡㻥 㻝㻢㻜 㻝㻢㻝 㻝㻢㻞 㻝㻢㻟 㻝㻢㻠 㻝㻢㻡 㻝㻢㻢 㻝㻢㻣 㻝㻢㻤 㻝㻢㻥 㻝㻣㻜 㻝㻣㻝 㻝㻠㻢 㻝㻠㻡 㻝㻠㻠 㻝㻠㻟 㻝㻠㻞 㻝㻠㻝 㻝㻠㻜 㻝㻟㻥 㻝㻟㻤 㻝㻟㻣 㻝㻟㻢 㻝㻟㻡 㻝㻟㻠 㻝㻟㻟 㻝㻟㻞 㻝㻟㻝 㻝㻟㻜 㻝㻞㻥 㻝㻞㻤 㻝㻞㻣 㻝㻞㻢 㻝㻞㻡 㻝㻞㻠 㻝㻞㻟 㻝㻞㻞
㻥㻣 㻥㻤 㻥㻥 㻝㻜㻜 㻝㻜㻝 㻝㻜㻞 㻝㻜㻟 㻝㻜㻠 㻝㻜㻡 㻝㻜㻢 㻝㻜㻣 㻝㻜㻤 㻝㻜㻥 㻝㻝㻜 㻝㻝㻝 㻝㻝㻞 㻝㻝㻟 㻝㻝㻠 㻝㻝㻡 㻝㻝㻢 㻝㻝㻣 㻝㻝㻤 㻝㻝㻥 㻝㻞㻜 㻝㻞㻝 㻥㻢 㻥㻡 㻥㻠 㻥㻟 㻥㻞 㻥㻝 㻥㻜 㻤㻥 㻤㻤 㻤㻣 㻤㻢 㻤㻡 㻤㻠 㻤㻟 㻤㻞 㻤㻝 㻤㻜 㻣㻥 㻣㻤 㻣㻣 㻣㻢 㻣㻡 㻣㻠 㻣㻟 㻣㻞
㻠㻣 㻠㻤 㻠㻥 㻡㻜 㻡㻝 㻡㻞 㻡㻟 㻡㻠 㻡㻡 㻡㻢 㻡㻣 㻡㻤 㻡㻥 㻢㻜 㻢㻝 㻢㻞 㻢㻟 㻢㻠 㻢㻡 㻢㻢 㻢㻣 㻢㻤 㻢㻥 㻣㻜 㻣㻝 㻠㻢 㻠㻡 㻠㻠 㻠㻟 㻠㻞 㻠㻝 㻠㻜 㻟㻥 㻟㻤 㻟㻣 㻟㻢 㻟㻡 㻟㻠 㻟㻟 㻟㻞 㻟㻝 㻟㻜 㻞㻥 㻞㻤 㻞㻣 㻞㻢 㻞㻡 㻞㻠 㻞㻟 㻞㻞
㻝 㻞 㻟 㻠 㻡 㻢 㻣 㻤 㻥 㻝㻜 㻝㻝 㻝㻞 㻝㻟 㻝㻠 㻝㻡 㻝㻢 㻝㻣 㻝㻤 㻝㻥 㻞㻜 㻞㻝
Entrance Poster Desk www.ghgt.info • [email protected]
㻳㻴㻳㼀㻙㻝㻝㻌㻼㼛㼟㼠㼑㼞㻌㼚㼡㼙㼎㼑㼞㻌㼙㼍㼤㻢㻞㻢㼋㻝㻜㻞㻠㼥㼥㻌㻌㻢㻞㻢㻙㻝㻜㻞㻠㼥㼥㻙㼚㼡㼙㼎㼑㼞㻌㼜㼍㼟㼠㼑㼐㻙㼒㼛㼞㼀㻭 8. Development of in-Situ CO2 Capture Coal Utilization Technologies Poster Session Details Shiying Lin, Hironobu Oshima, Japan Coal Energy Center On the following pages you will find the details of all posters on display at GHGT-11. 9. Performance Evaluation of Aqueous Carbonation for Steelmaking Slag: Process Posters listed in Blue will be presented in Poster Chemistry Session A, while those listed in Black, will be presented Shu-Yuan Pan, Pen-Chi Chiang, National Taiwan in Poster Session B. University, Yi-Hung Chen, National Taipei Session A: Tuesday 20th November: 13.40 - 15.40 University of Technology; E-E Chang, Taipei Medical University Session B: Wednesday 21st November: 13.40 - 15.40 10. The Status of the Development Project for the Advances in CO Capture Tecnology Development 2 10 MWe-Scale Dry-Sorbent Carbon Dioxide 42 Adsorption Capture System to the Real Coal-Fired Power 1. Studies of Ca-Based High Temperature Sorbents Plant in Korea
for CO2 Capture Young Cheol Park, Sung-Ho Jo, Dong-Ho Lee, Bjørnar Arstad, Richard Blom, Joanna Prostak, Chang-Keun Yi, Korea Institute of Energy SINTEF Research; Chong Kul Ryu, Korea Electric Power Research Institute; Ki-Seok Kim,KEPCO Enginering 2. Carbon Dioxide Capture from Flue Gases by & Construction Company, INC.; Chan Hyo You, Solid Sorbents Korea Southern Power Co., Ltd.; Ki Suh Park, KC Mustafa Abunowara, Libyan Petroleum Cottrell Co., Ltd. Institute; Mohammed Elgarni, HTe Purenergy Inc. 11. Dynamic Cyclic Performance of Phenol- Formaldehyde Resin-Derived Carbons for Pre- 3. Optimizing Solid Sorbents for CCS Combustion CO Capture: An Experimental Adam Berger, Abhoyjit Bhown, SINTEF 2 Study 4. On the Development of Vacuum Swing Susana Garcia, Claudia F. Martín, Jose J. Pis, Adsorption (VSA) Technology for Post- Fernando Rubiera, Cova Pevida, INCAR-CSIC Combustion CO Capture 2 12. Postcombution CO Capture Adsorbents from Anne Anderson, Jasmina Hafizovic Cavka, 2 Spent Coffee Grounds Aud Spjelkavik, Richard Blom, SINTEF Materials & Ana Silvia González, Marta G. Plaza, Jose, J. Pis, Chemistry; Amar N. Goswami, Anshu Nanoti; Fernando Rubiera, Cova Pevida, INCAR-CSIC Indian Institute of Petroleum 13. Process Simulation of Ca-Looping Processes: 5. Efficient and Rapid Screening of Novel Review and Guidelines Adsorbents for Carbon Capture in the UK IGSCC Matteo Carmelo Romano, Politecnico di Project Milano; Isabel Martínez, Ramón Murillo, Instituto Stefano Brandani, Enzo Mangano, Maria- de Carboquímica (ICB-CSIC); Dursun Can Chiara Ferarri, The University of Edinburgh; Ozcan, Hyungwoong Ahn, IMP-SEE, The University Magdalena Malgorzata Lozinka, Paul Anthony of Edinburgh, Richard Blom, SINTEF Material and Wright, Juergen Kahr, Russell Morris, University Chemistry of St. Andrews; Matthew Craod, Neil McKeown, Cardiff University; Peter Budd, The University of 14. Alkylamine-Based Adsorbents Synthesized Manchester using High Internal Phase Emulsion Technique for Carbon Dioxide Adsorption 6. Characterisation of an Automated Dual Piston Chintana Saiwan, Pailin Muchan, Petroleum and Pressure Swing Adsorption (DP-PSA) System Petrochemical College, Chulalongkorn University; Daniel Friedrich, Wenli Dang, Stefano Brandani, David deMontigny, Petroleum and Petrochemical Institute for Materials and Processes, University of College, Chulalongkorn University Edinburgh
7. Post-Combustion CO2 Capture using Solid Sorbents: 1 MW Pilot Scale Evaluation Holly Krutka, Sharon Sjostrom, Travis Starns, Cody Wilson, ADA Environmental Solutions 15. Study of Carbon Dioxide (CO2) Adsorption for 22. Development of Amine-Modified Solid Sorbents
Fossil Fuel Based Power Plant Flue Gas for Post Combustion CO2 Capture Application using Quaternized Biopolymer Katsunori Yogo, Shingo Kazama, Research Institute Chintana Saiwan, Nattida Sotthinirandorn, of Innovative Technology for the Earth (RITE), Petroleum and Petrochemical College, Chemical Research and Nara Institute of Science Chulalongkorn University; Raphael and Technology (NAIST); Tsuyoshi Watabe, Idem, Paitoon Tontiwachwuthikul, Teeradet Supap, Research Institute of Innovative Technology for International Test Centre for CO2 Capture, the Earth (RITE), Chemical Research; Yosuke University of Regina; Panya Wongpanit, Faculty Nishizaka, Nara Institute of Science and of Agricultural Product Innovation and Technology (NAIST) Technology, Srinakharinwirot University 23. Enhancing Sorption Performance of Solid Amine
16. Effect of Polyethyleneimine Loading into High Sorbents for CO2 Capture by Additives Internal Phase Emulsion Polymer for Carbon Zhonghua Zhang, National Institute of Clean- Dioxide Adsorption and-Low-Carbon Energy, and China University of 43 Chintana Saiwan, Pacharakhorn Dejburum, Mining and Technology; Boadong Wang, Petroleum and Petrochemical College, Qi Sun, National Institute of Clean-and-Low- Chulalongkorn University; Petroleum and Carbon Energy; Xiaoliang Ma, Kuwait Institute Petrochemical College, Chulalongkorn University for Scientific Research and EMS Energy Institute; Yonggang Wang, China University of Mining and 17. Comparison of Commercial and New Adsorbent Technology Materials for Pre-Combustion CO2 Capture by Pressure Swing Adsorption Advanced Solvents Joanna, Schell, Nathalie Casas, Dorian Marx, Marco 24. Evaluation of Amine-Blend Solvent Systems for Mazzotti, Institute of Process Engineering ETH Post-Combustion Capture Applications Zürich, Zürich, Switzerland; Richard Blom, SINTEF Adewale Adeson, Mohammad Abu Zahra, Masdar materials and chemistry, Oslo, Norway Institute of Science and Technology 18. Nanoparticle-Supported Amine for High 25. Developments in the CO2CRC UNO Mk 3 Process Capacity CO Adsorbents 2 - a Multi-Component Solvent Process for Large Fritz Simeon, T. Alan Hatton, Massachusetts Scale CO Capture Institute of Technology 2 Calre Anderson, Trent Harkin, Abdul Qader, Narry
19. CO2 Capture by Mesoporous SBA-15 Grafted with Hooper, CO2CRC; Mihn Ho, The University of NSW 3-Aminopropyl Triethoxysilane in Supercritical 26. Understanding Precipitation in Amino Acid Salts Propane at Process Conditions Chung-Sung Tan, Worasaung Klinthong, Chih- Ugochukwu E. Aronu, Innas Kim, SINTEF Materials Hung Huang, Department of Chemical and Chemistry; Adri Hartono, Department of Engineering, National Tsing Hua University Chemical Engineering, Norwegian University of 20. Qualification of the ALKASORB Sorbent for the Science and Technology Sorption-Enhanced Water-Gas Shift Process 27. Strategic Vapor Suppressing Additives for Edward Van Selow, Paul Cobden, Eric Van Dijk, Paul Ammonia Based CO Capture Solvent Verbraeken, Daniel Jansen, Energy Research 2 Moetaz Attalla, Stefan Salentinig, Phil Jackson, Centre of the Netherlands CSIRO; Ben Ballinger, University of Queensland 21. Calcium Looping Process: Oxyfuel Sorbent 28. Detailed Studies on the Absorption Kinetics of Regeneration Experimental Validation of a CO in Aqueous Solutions for Small Superficial Carbonator Model & Investigation of Sorbent 2 Liquid Loadings Performance Regenerated under High CO 2 Peter Behr, Alexander Tunnat, Andre Maun, Klaus Partial Pressure Görner, University Duisburg-Essen Glykeria Varela, Ajay Ramesh Bidwe, Craig Hawthorn, Lucia Bernard, Mariusz Zeiba, Günter Scheffknecht, Uni. Stuttgart/ IFK
www.ghgt.info • [email protected] 29. Solvent Selection for Post-Combustion CO2 38. Ab Initio Study of CO2 Capture Mechanisms in Capture Monoethanolamine Aqueous Solution: Reaction Juan Salizer, Urmila, Diwekar, Vishwamitra Pathways from Carbamate to Bicarbonate Research Institute; Kevin Joback, Molecular Yoichi Matsuzaki, Masami Onoda, Nippon Steel Knowledge Systems; Adam Beger, Abhoyjit Corporation; Firoz Alam Chowdhury, Takayuki Bhown, Electric Power Research Institute Higashii, Shingo Kazama, Research Institute of Innovative Technology for the Earth (RITE) 30. Synthesis and Characterization of New
Absorbents for CO2 Capture 39. Location-Specific Technoeconomic Evaluation of Firoz Alam Chowdhury, Hidetaka Yamada, a Novel Amine Technology Takayuki Higashoo, Shingo Kazama, Research Dale jones, Thomas McVey, Julio Friedmann, Institute of Innovative Technology for the Earth Lawrence Livermore National Laboratory (RITE); Yoichi Matsuzaki, Nippon Steel Corporation 40. Development of Hindered New Amine 31. CO -Binding Organic Liquids Gas Capture with Absorbents for CO Capture 44 2 2 Polarity-Swing-Assisted Regeneration Shinji Murai, Yasuhiro Kato, Yukishige Maezawa, David Heldebrand, Charles Freeman, Feng Zheng, Takehiko Muramatsu, Satoshi Sato, TOSHIBA Phillip Keoch, Mark Bearden, Michael Elliot, Pacific 41. Promoting CO Absorption in Aqueous Amines Northwest National Laboratory 2 with Benzylamine 32. Screening and Characterization of Advanced Gilles Richner, CSIRO Amine Based Solvent Systems for CO Post- 2 42. Lab-Scale Characterization of CO Absorbents Combustion Capture 2 Containing Various Amine Species Ali Imran, Adewalw Adeosun, Mohammad Abu Hiroshi Sato, Kumiko Yoshihisa, Nobuhiko Zahra, Masdar Institute of Science and Technology Kubota, Research Laboratory, IHI Corporation; Katsumi Takahashi, IHI Technology Solutions 33. Oxidative Degradation of AMP/MEA Aqueous Inc.; Ario Matsumoto, Yasuro Yamanaka, Blends Power Plant Division, IHI Corporation; Klaus-J Jens, Telemark University College; Teilin Yukio Furukawa, Department of Chemistry and Wang, Telemark Technological R & D Institute and Biochemistry, Graduate School of Advanced Telemark University College Science and Engineering, Waseda University 34. Evaluation of Carbon Dioxide Absorption by 43. Aqueous 2-Methylpiperazine/Piperazine for Amine Based Absorbent Carbon Capture Yasuhiro Kato, Shinji Murai, Daigo Miraoka, Brent Sherman, Xi Chen. Thu Nguyen, Stephanie Takehiko Muramatsu, Satoshi Saito, Toshiba Freeman, Gary Rochelle, University of Texas at Corporation Austin 35. Real Time Mechanistic Insights for CO Capture 2 44. Mixed Alkanolamines with Low Regeneration with Liquid Amine Absorbents Energy for CO Capture in a Rotating Packed Bed Pavel Kortunov, Lisa Baugh, David Calabro, 2 Cheng-Hsiu Yu, Chung-Sung Tan, Department of Micahel Siskin, Jand Thomann, ExxonMobil Chemical Engineering, National Tsing Hua Research and Engineering University 36. Absorption Rates and CO Solubility in New 2 45. Demonstration Test Result of High Pressure Piperazine Blends Acid-Gas Capture Technology (HiPACT) Le Li, Yang Du, Omkar Namjoshi, Gary Rochelle, Koji Tanaka, Yasushi Fujimura, JGC Corporation; Department of Chemical Engineering, University Takehiro Komi, INPEX CORPORATION; Torsten Katz, of Texas at Austin; Han Li, State Key Laboratory of Oliver Spuhl, BASF SE; Erick Contreras, BASF East Chemical Engineering, Tsinghua University Asia Headquarters Ltd. 37. Modeling Pilot Plant Results for CO Stripping 2 46. Study on Potential Biphasic Solvents: using Piperazine in a Two Stage Flash Absorption Capacity, CO Loading, and Reaction Tarun Madan, David Van Wagener, Eric Chen, Gary 2 Rate Rochelle, University of Texas at Austin Zhicheng Xu, Shujuan Wang, Changhe Chen, Tsinghua University 47. Effect of Alcohol Chain Length on Carbon 53. 3D Hydrodynamic Simulation of a Chemical Dioxide Absorption into Aqueous Solutions of Looping Combustion with Two Interconnected Alkanolamines Fluidized Beds Hidetaka Yamada, Firoz Chowdhury, Kazuya Jian Chang, Kai Zhang, Honggang Chen, Yongpin Goto, Takayuki Higashii, Shingo Kazama, Research Yang, North China Electric Power University; Institute of Innovative Technology for the Earth; Yanjun Guan, China University of Petroleum Yoichi Matsuzaki, Nippon Steel Corporation 54. Operation and scale-Up of Fixed Bed Chemical
48. Development of Chemical CO2 Solvent for High- Looping Combustion
Pressure CO2 Capture Erin Kimbal, Patricia van der Bos, Arthur Bezuijen, Shin Yamamoto, Takayuki Higashii, Shingo Judith Jahn, Aral Gootheer, Peter van den Broeke, Kazama, Chemical Research Group, TNO Research Institute of Innovative Technology for 55. Evaluation of a Highly Reactive and Sulfur the Earth; Hiroshi Machida, Department Resistant Synthetic Fe-Based Oxygen Carrier for of Chemical Engineering, Graduate School of 45 CLC using Gaseous Fuels Engineering, Nagoya University; Yuicho Fujioka, Pilar Gayan, Arturo Cabello, Francisco García- Department of Environmental Sciences, Labiano, Alberto Abad, Luis de Diego, Juan International College of Arts and Sciences, Adanez, Miguel Angel Pans, Cristina Dueso, Fukuoka Women’s University Instituto de Carboquimica- CSIC Capture from Power Plants, Gas Fields, Industrial 56. Coal Chemical-Looping Combustion for Plants and Transportation Fuels and Technolgies. Electricity Generation: Investigation for a 250 49. Unitied State National Carbon Capture Center MWe Power Plant Status Yann Le Moullec, Olivier Authier, EDF R&D Frank Morton, Roxann Laird, John Northington, 57. Chemical-Looping Combustion of Solid Fuels Southern Company in a 10 kW Reactor System using Natural Chemical Looping Minerals as Oxygen Carrier Carl Linderholm, Anders Lyngfelt, Chalmers 50. ZrO -Supported CuO Oxygen Carriers for 2 tekniska högskola; Cristina Dueso, Instituto de Chemical-Looping with Oxygen Uncoupling Carboquímica (ICB-CSIC) (CLOU)
Mehdi Arjmand, Henrik Leion, Chalmers University 58. Chemical Looping for Pre-Combustion CO2 of Technology, Division of Environmental Capture – Performance and Cost Analysis Inorganic Chemistry; Tobias Mattisson, Anders Hari Mantripragada, Edward Rubin, Carnegie Lyngfelt, Chalmers University of Technology, Mellon University Division of Energy Technology 59. Process Design of a Hydrogen Production 51. Characterization of Spray-Dried NO Oxygen Process for Power Generation Based on a Cu-Ca Carrier Supported on Alpha Alumina Chemical Loop Jeom-In Baek, Joong Beom Lee, Tae-Hyoung Eom, Isabel Martinez, Ramon Murillo, Gemma Grasa, Kyeong-Sook Kim, Seug-Ran Yang, Chong Kul Ryu, Instituto de Carboquimica (Consejo Superior KEPCO Research Institute de Investigaciones Científicas); Jose Ramon Fernandez, Juan Carlos Adanades, Instituto 52. Reactor Choices for Chemical Looping Nacional del Carbón Combustion (CLC) – Dependencies on Materials Characteristics 60. Innovative Oxygen Carrier Materials for Erin Kimball, W.A.P. van den Bos, W.A.P. van den Chemical Looping Combustion Bos, TNO; Arnold Lambert, Elodie Comte, IFPEN; Tobias Mattisson, Magnus Ryden, Peter Hallberg, Richard Blom, Anita Fossdal, Yngve Larring SINTEF Anders Lyngfelt, Dazheng Jing, Ali Hedayati, Chalmers University of Technology; Jasper Van Noyen, Frans Snijkers, VITO-Flemish Institute for Technological Research
www.ghgt.info • [email protected] 61. Chemical-Looping Combustion with Liquid Fuels 70. EPRI Community Efforts on Health and Tobias Mattisson, Patrick Moldenhauer, Magnus Environment Impacts of Amines for Post- Ryden, Anders Lyngfelt, Dazheng Jing, Ali Combustion Carbon Capture Hedayati, Chalmers University of Technology; Stephanie Shaw, Annette Rohr, Eladio Knipping, Bandat Fadhel, Jean-Pierre Ballaguet, Saudi EPRI Environment Division; Moetaz Attalla, CSIRO Aramco Energy Technology; Karl ANders Hoff, SINTEF Materials and Chemistry Costs (capture related) 71. Emissions from CO Capture Plants; An Overview 62. Cost Analysis for CO Capture Process using 2 2 Eirik Falck da Silva, KArl Anders Hof, Andy Booth, Aqueous Ammonia at RIST SINTEF Materials and Chemistry Je Young Kim, Kunwo Han, Chi Kyu Ahn, Man Su
Lee, Chang Houn Rhee, Hee Dong Chun, RIST 72. Environmental Impacts of CO2 Leakage: Recent Results from the ASGARD Facility, UK Environmental Impacts of CO2 Capture 46 Karon Smith, Michael Steven, University of 63. Preliminary Studies into the Environmental Nottingham; David Jones, Julia West, Neil Breward, Fate of Nitrosamine and Nitramine Compounds Kay Green, Tom Barlow, British Geological Survey; in Aquatic Systems Simone Gwosdz, Martin Kruger, Bundesanstalt Andy Booth, Eirik Falck da Silva, Odd Gunnar für Geowissenschaften und Rohstoffe; Stan Brakstad, Kolbjørn Zahlsen, SINTEF Materials and Beaubien, Università di Roma “La Sapienza” Chemistry 73. Potential Impact of CO2 on Subsurface Microbial 64. The Use of Amine Reclaimer Wastes as a NOx Ecosystems and Implications for the Reduction Agent Performance of Storage Reservoirs Deshai Botheju, Lars-Andre Tokheim,Telemark Joanna Wragg, Julia West, Keith Bateman, Heather University College, Norway; Peter Glarborg, Harrison, Kay Green, Antonni Milodows, Jeremy Technical University of Denmark, Denmark Rushton, Gren Turner, Doris Wagner, David Jones, British Geological Survey 65. Nitrosamine Degradation by UV Light Radiation
in Post-Combustion CO2 Capture: Demonstration Experiences and Case Studies Ferran de Miguel, Henk Trap, Earl Goetheer, TNO; 74. Effect of CO Purity on Energy Requirement of Alexander Voice, University of Texas at Austin 2 CO2 Capture Processes 66. A New Test Rig for Studies of Degradation of Kazuya Goto, Shingo Kazama, RITE; Atsuyoshi
CO2 Absorption Solvents at Process Conditions; Furukawa, Masahiro Serizawa, Satoshi Aramaki, Comparison of Test Rig Results and Pilot Plant Kazuo Shoji, Japan CCS Ltd Data for Degradation of MEA 75. Result of the 60 tpd CO Capture Pilot Plant in (Mono-Ethanolamine) 2 European Coal Power Plant with KS-1 Solvent Aslak Einbu, Eirik Falck da Silva, Geir Haugen, Osamu Miyamoto, Takashi Kamijo, Yoshiki Andreas Grimsstvedt, Kristin Lauritsen, Terje Sorimachi, Daisuke Shimada, Hiromitsu Nagayasu, Vassbotn, SINTEF Materials and Chemistry Hiroshi Tanaka, Mitsubishi Heavy Industries, Ltd.; 67. Evaluation of Amine Emissions from the Post- Angela Mangiaracina, ENEL Ingegneria e
Combustion CO2 Capture Pilot Plant Innovazione, SpA Koshito Fujita, Daigo Muraoka, Takashi Ogawa, 76. Advanced Amine Process Technology Pilot Plant Hideo Kitamura, Kensuke Suzuki, Satoshi Saito, at Le Havre: First Operations and Results Toshiba Corporation Tina Edvardsson, Barath Baburao, Larry Czarnecki, 68. Potential Toxicological Effects of Amines Alstom Power; Craig Shubert, The Dow Used for Carbon Capture and Storage and their Chemical Company; Olivier Déruelle, Islem Degradation Products Haji, Fabrice Chopin, Yann Le Moullec, Électricité Annette Rohr, Stephanie Shaw, Aladio Knipping, de France Electric Power Research Institute; Jacob 77. Do We Underestimate the Impact of Particles in McDonald, Melanie Doyle-Eisele, Dean Kracko, Coal-Derived Flue Gases in Amine Based CO Lovelace Respiratory Research Institute 2 Capture Processes?
69. Evaluation of Monoethanolamine-Based CO2 Bern Schallert, Siegfries Neuhaus, Chris Satterley, Capture Processes By-Product Handling E.ON New Build & Technology GmbH; Satish Approaches Considering Regulation in UAE Reddy, Fluor Enterprises, Inc. Laila Nurrokhmah, Toufic Mezher, Mohammad Abu Zahra, Masdar Institute of Science and Technology Fundamentals of Scrubbing 86. Development of Poly(Amidoamine) Dendrimer/ Polyvinyl Alcohol Hybrid Membranes for CO 78. Measurement of Heat of CO Absorption into 2 2 Capture at Elevated Pressures 2-Amino-2-Methyl-1-Propanol (AMP)/ Piperazine Shuhong Duan, Ikuo Taniguchi, Teruhiko Kai, Blends using Differential Reaction Calorimiter Shingo Kazama, Research Institute of Innovative Qian Xie, Adisorn (Andy) Aroonwilas, Amornvadee Technology for the Earth Veawab, Energy Technology Laboratory, University Of Regina 87. Modelling and Multi-Stage Design of Membrane Processes Applied to Carbon Capture in Coal- 79. Experimentally Based Evaluation of Accuracy of Fired Power Plants Absorption Equilibrium Measurements Davide Bocciardo, Maria-Chiara Ferrari, Setfano Dag Eimer, Tel-Tek and Telemark University Brandani, Scottish Carbon Capture and Storage College; Anita B. Elverhøy, Chameera K. Centre Jayarathna, Tel-Tek 88. CO Removal from Multi-Component Gas Stream 80. 13C-NMR Spectroscopic Study on Chemical 2 47 using Porous Ceramic Membranes Infiltrated Species in Piperadine-Amine-CO -H O System 2 2 with Molten Carbonates Before and After Heating Marie-Laure Fontaine, Thijs Peters, Michael Miho Nitta, Masaki Hirose, Toru Abe, Yokio McCann, Partow P. Henriksen, Rune Bredesen, Furukawa, Waseda University; Hiroshi Sato, Yasuro SINTEF Materials and Chemistry Yamanaka, IHI Corporation 89. CO Absorption with Membrane Contactors 81. Mass Transfer of CO Absorption into Hybrid 2 2 vs. Packed Absorbers-Challenges and MEA-Methanol Solvents in Packed Column Opportunities in Post Combustion Capture and Paitoon Tontiwachwuthikul, Zhiwu Liang, Raphael Natural Gas Sweetening Idem, University of Regina and Hunan University; Karl Anders Hoff, SINTEF, Hallvard Svendsen, Teerawat Sema, Abdulaziz Naami, University of Norwegian University of Science and Technology Regina 90. Molecular Gate Membrane: Poly(Amidoamine) 82. Low Toxic Organic Corrosion Inhibitors for Dendrimer/Polymer Hybrid Membrane Modules Amine-Based CO Capture Process 2 for CO Capture Sureshkumar Srinivasan, Amy Veawab, Adisorn 2 Teruhiko Kai, Ikuo Taniguchi Shuhong Duan, Aroonwilas, University of Regina Shingo Kazama, Research Institute of Innovative 83. Corosion Prediction of Carnon Steel in MEA- Technology for the Earth (RITE) based CO Capture Process 2 91. Optimization of CO Concentration Captured by Ameerudeen Najumudeen, Amy Veawab, Adisorn 2 Membrane Technology - Possibility of Reduction Aroonwilas, University of Regina in CO2 Capture Energy and Cost 84. SO2 Effect on Degradation of MEA and Some Shingo Kazama, RITE; Kenji Haraya, AIST Other Amines 92. Membrane Systems Engineering for Post- Shan Zhou, Shujuan Wang, Chenchen Sun, Combustion Carbon Capture Shanghe Chen, Key Laboratory for Thermal Rajab Khalilpour, Ali Abbas, University of Sydney Science and Power Engineering of Minister of
Education 93. The Effect of pH on CO2-Separation from Post Combustion Gas by Polyvinylamine based Membranes Composite Membrane 85. Natural Gas Upgrading Through Hydrogen Taek-Joong Kim, Heléne Vrålstad, Marius Sandru, Selective Membranes: Application in Carbon SINTEF Materials and Chemistry; May-Britt Hägg, Free Combined Cycles NTNU Konstantinos Astonios, Kyriakos Panopoulos, 94. Preparation of CO Permselective Li4SiO4 Aggelos Doukelis, Antionos Koumanakos, 2 Membranes by Using Mesoporous Silica as a Emmanouil Karakas, National Technical University Silica Source of Athens Mikihiro Nomura, Tesuya Saknishi, Youichiro Nishi, Keisuke Utsumi, Ryutaro Nakamura, Shibaura Institute of Technology
www.ghgt.info • [email protected] 95. Preparation of Thin Li4SiO4 Membranes by 106. Efficient Low CO2 Emissions Power Generation by Using a CVD Method Mixed Conducting Membranes Mikihiro Nomura, Tesuya Saknishi, Youichiro Nishi, Paolo Chiesa, Matteom Romano, Vincenzo Keisuke Utsumi, Ryutaro Nakamura, Shibaura Spallina, David Turi, Politecnico di Milano; Luca Institute of Technology Mancuso, Foster Wheeler 96. Benchmarking of Hydrogen Selective Membranes Novel Separation JAZ Pieterse, D. Jansen, J. Boon, JW Dijkstra, ECN 107. Carbon Dioxide Capture from Flue Gases by 97. Dense Membranes for Efficient Oxygen and Solid Sorbents Hydrogen Separation (DEMOYS): Project Mustafa Abunowara, Libyan Petroleum Institute; Overview and First Results Mohammed Elgarni, HTC Purenergy Inc. Canada Pietro Pinacci, RSE; Jochen Haering, Sulzer Markets 108. Combined SO -CO Removal Towards Significant and Technology Ltd 2 2 Investment Cuts 48 98. Membrane – Solvent Absorption Hybrid Cristina Sanchez Sanchez, Katarzyna Misiak, Processes for Pre- and Post-Combustion Capture Monique Oldenburg, Earl Goetheer, TNO; Erik from Brown Coal Plants Meuleman, CSIRO Colin Scholes, Robyn Cuthbertson, Geoff Stevens, 109. Development of New CO Capture Processes Sandra Kentish; CRC for Greenhouse Gas 2 Based on Phase Change Amino Acid Solvents Technologies (CO2CRC) Eva Sanchez Fernandez, Katarzyna Misiak, Earl 99. CACHET-II: Carbon Capture and Hydrogen Goetheer, Ferran de Miguel Mercader, TNO Production with Membranes 110. Conception of a Pulverized Coal Fired Power Bai Song, Jonathan Forsyth, BP Alternative Energy Plant with Carbon Capture around a
100. Effects of Membrane Properties on CO2 Supercritical Carbon Dioxide Brayton Cycle Desorption from Chemical Absorbents using a Yann Le Moullec, EDF R&D Membrane Flash Process 111. Removal of Carbon Dioxide from Indoor Air Nobuhide Takashi, Kei Matsuzaki, Tetsuya Using a Cross-Flow Rotating Packed Bed Funai, Takuya Wada, Hiroshi Fukunaga, Shinshu Chia-Chang Lin, Chang Gung University University; Toru Takatsuke, Hiroshi Mano, Research
Institute of Innovative Technology for the Earth 112. CO2 Capture System Using Lithium Silicate for Distributed Power Supply 101. Comparison and Selection of Amine-Based Mamoru Mizunuma, Masayuki Tsuda, Yasuko Absorbents in Membrane Vacuum Regeneration Maruo, NTT Energy and Environment Laboratories; Process for CO Capture with Low Energy Cost 2 Takao Makagaki, Waseda University Zhen Wang, Mengxian Fang, Yili Pan, Zhongyang Luo, Zhejiang University; Shuiping Yan, Huazhong 113. Studies of Crosslinked Quaternized Biopolymer Agricultural University for Separation of Heat Stable Salts in Amine Absorption Solution for CO Capture 102. Pore-Fill-Type Palladium-Porous Alumina 2 Chintana Saiwan, Chariya Seelarak, Chulalongkorn Composite Membrane for Hydrogen Separation University; Teeradet Supap, Raphael Idem, Paitoon Katsunori Yogo, RITE, Chemical Research Group Tontiwachwuthikul, University of Regina; Panya and NAIST; Hiromichi Takeyama, NAIST; Kensuke Wongpanit, Srinakharinwirot University Nagata, RITE, Chemical Research Group 114. Carbon Dioxide Separation Technology from 103. CO /CH Mixed Gas Separation Using Carbon 2 4 Biogas by Membrane/Absorption Hybrid Hollow Fiber Membranes Method Miki Yoshimune, Kenji Haraya, AIST Takafumi Tomiokasakai, Toru Sakai, TAIYO NIPPON
104. The Effects of Membrane-Based CO2 Capture SANSO CORPORATION; Hiroshi Mano, RITE System on Pulverized Coal Power Plant 115. Study of Heat Integration Between the Units Performance and Cost of a Circulating Fluidized Bed Reactor Operating Haibo Zhai, Edward Rubin, Carnegie Mellon Sorption Enhanced Steam Methane Reforming University Rafael Antonio Sanchez, Hugo Atle Jakobsen, 105. Investigation of Cascaded Membrane Process Jannike Solsvik, Zhongxi Chao, Norwegian for Real Flue Gas Simulation in Post-Combustion University of Science and Technology Capture 116. Application of Free Piston Stirling Cooler (SC) on Li Zhao, Michael Weber, Detlef Stolten, CO Capture Process Forschungzentrum Juelich, Germany 2 Chun Feng Song, Yutaka Kitamura, University of Tsukuba; Wei Zhong Jiang, China Agricultural University 117. Amine Sorbents for Use in the Electrochemically- 126. Ignition and NO Emissions of Coal and Biomass Mediated Gas Scrubbing of Carbon Dioxide Blends Under Different Oxyfuel Atmospheres Michael Stern, Fritz Simeon, Howard Herzog, Alan Juan Riaza, Lucia Álvarez, Maria Victoria Gil, Cova Hatton, Massachusetts Institute of Technology Pevida, Jose J. Pis, Fernando Rubiera, INCAR-CSIC 118. Synthesis of Calcium Aluminates Granule with 127. Predicting Behaviour of Coal Ignition in Oxyfuel
TiO2 Binder for High-Temperature CO2 Capture Combustion Ching Tsung Yu, WEiChin Chen, Yau Pin Chyou, Cahyadi Soeharto, University of Indonesia Institute of Nuclear Energy Research; San Yaun 128. Impact of Oxyfuel Combustion on Fly Ash Chen, National Chiao Tung University Transformations and Resulting Corrosive Oxyfuel Technolgies Behavior of Austenitic Superalloys Gosia (Malgorzata) Stein-Brzozowska, Hasbeidy 119. Effect of Temperature and Flue Gas Recycle on Diaz Castro, Jörg Maier, Günter Scheffknecht, IFK, the SO and NO Emissions in a Oxyfuel Fluidised 2 x University of Stuttgart Bed Combustor 49 Juan Adanez, Margarita de las Obras-Loscertales, 129. Flue Gas Concentrations and Efficiencies of a Arancha Rufas, Luis Francisco de Diego, Francisco Coal-Fired Oxyfuel Power Plant with Circulating Garcia-Labiano, Pilar Gayan, Alberto Abad, Fluidised Bed Combustion Instituto de Carboquimica- CSIC Matthias Weng, Claas Günther, Alfons Kather, Hamburg University of Technology / Institute of 120. Experimental Investigations on Deposit Energy Systems Formation on External Fluidized Bed Heat Exchanger Surfaces in Oxy-Fired CFB Boilers Post Combustion Theodor Beisheim, Mariusz Zieba, Günter 130. Optimal Operation of Solvent-Based Post- Scheffknecht, IFK - University of Stuttgart Combustion Carbon Capture Processes 121. Oxyfuel Combustion: Technical & Economic Zhengxiong Li, Ali Abbas, Rajab Khalilpour, The Considerations for the Development of Carbon University of Sydney Capture from Pulverized Coal Power Plants 131. Optimization of an Existing 130 Tonne per day Kyle Borget, Edward Rubin, Carnegie Mellon CO Capture Plant from a Flue Gas Slipstream of University 2 a Coal Power Plant
122. Retrofit of Bubbling Fluidized Boilers to Oxyfuel Ahmed Aboudheir, Walid Elmoudir, HTC CO2 Combustion using Wood Wastes as Fuel Systems Corp. Gabriel Faé Gomes, Liandro Dalla Zen, CIENTEC; 132. Process Simulation of Aqueous MEA Plants for Antônio Vilela, UFRGS Post-Combustion Capture from Coal-Fired Power 123. Restrictions and Limitations for the Design of Plants a Steam Generator for a Coal-Fired Hyungwoon Ahn, Stefano Brandani, Mauro Oxyfuel Power Plant with Circulating Fluidised Luberti, Zhengyi Liu, The University of Edinburgh Bed Combustion 133. Heat of Absorption of CO in Aqueous Solutions Claas Guenther, Matthias Weng, Alfons Kather, 2 of DEEA, MAPA and their Mixture Hamburg University of Technology Muhammad Arshad, Kaj Thomsen, Technical 124. Water Balance in Oxy-Combustion Compared University of Denmark; Hallvard F. Svendsen, with Post-Combustion Schemes Norwegian University of Science and Technology Jens Hetland, SINTEF Energy Research 134. Validation of a Process Model of CO2 Capture 125. Pathway for Advanced Architectures of Oxy- in an Aqueous Solvent, using an Implicit Pulverized Coal Power Plants: Minimization of Molecular Based Treatment of the Reactions the Global System Exergy Losses Charles Brand, Javier Rodriguez, Amparo Galindo, Yann Le Moullec, EDF R&D; Hayato Hagi, EDF George Jackson, Claire Adjiman, Imperial College R&D and Mines ParisTech CEP, Rodrigo Rivera- London Tinoco, Chakib Bouallou, Mines ParisTech CEP
www.ghgt.info • [email protected] 135. Selection of Amine Amino Acids Salt Systems for 146. Experimental and Modelling Study of the Binary
CO2 Capture and Ternary VLE of the AMP/Pz/H2O System with Arlinda Fejzo Ciftja, Adri Hartono, Hallvard F. Ebulliometer and NMR Svendsen, NTNU Ardi Hartono, Muhammad Saaed, Arlinda, Ciftja, Hallvard Svendsen, NTNU 136. Carbamate Formation in Aqueous - Diamine -
CO2 Systems with NMR Spectroscopy 147. Development of a Dynamic Model of a Post
Arlinda Fejzo Ciftja, Adri Hartono, Hallvard F. Combustion CO2 Capture Process Svendsen, NTNU Sanoja Jayarathna, Bernt Lie, Telemark University College, Morten Melaaen, Telemark University 137. eNRTL Parameter Fitting Procedure for Blended College and Tel-Tek Amine Systems: MDEA-PZ Case Study
Diego Di Domenico Pinto, Julianna, Garcia Moretz- 148. Experimental Study on CO2 Solubility in Aqueous Sohn Monteiro, Anita Bersås, Tore Haug-Warberg, Piperazine/Alkanolamines Solutions at Stripper 50 Hallvard Fjøsne Svendsen, NTNU Conditions Shota Inoue, Takuya Itakura, Takao Nakagaki, 138. Aqueous Piperazine/Aminoethylpiperazine for Yuki Furukawa, Waseda University; Hiroshi Sato, CO Capture 2 IHI Corporation; Yasuro Yamanaka, IHI Corporation Yang Du, Omkar Namjoshi, Le li, Thu Nguyen, Gary Rochelle, The University of Texas at Austin 149. Oxidative Degradation of Aqueous Amine Solutions of MEA, MDEA, AMP, PZ: A Review 139. Study of the Post Combustion CO Capture 2 Klaus J. Jens, Telemark University College and by Absorption into Amine(s) Based Solvents: Telemark Technological R & D Institute; Siw B. Application to Cement Flue Gases Fredriksen, Norner AS Lionel Dubois, Diane Thomas, University of
Mons 150. Advanced CO2 Capture Process using MEA Scrubbing: Configuration of a Split Flow and 140. Postcombustion CO Capture by Chemical 2 Phase Separation Heat Exchanger Absorption: Screening of Aqueous Amine(s)- Jaeheum Jung, Yeong Su Jong, Youngsub Lim, Based Solvents Chonghun Han, Seoul National University; Lionel Dubois, Diane Thomas, University of Mons Chi Seob Lee, KEPCO Engineering & Construction 141. A Numerical Solution Strategy for Dynamic Company, INC Simulation of Post-Combustion CO Capture 2 151. SO Impact on Amine Emission and Emission Nina Enaasen, Andrew Tobiesen, Magne Hillestad, 3 Reduction Technology Norwegian University of Science and Technology; Takashi Kamijo, Yoshinori Kajiya, Hiromitsu Hanne Kvamsdal, SINTEF Materials and Chemistry Nagayasu, Mitsubishi Heavy Industries, Ltd.; 142. Thermal Decomposition of Nitrosamines in Takahito Yonekawa, Tatsuya Tsujiuchi, Mitsubishi Aqueous Piperazine Heavy Industries America, Inc. Nathan Fine, Mandana Ashouripashaki, Gary 152. Demonstration of Hitachi’s CO Capture System Rochelle, University of Texas, Austin 2 for Flue Gas from Power Plants 143. Removal of Acid Gases and Metal Ion Terafumi Kawasaki, Yoshiro Inatsune, Kengo Sano, Contaminants from Power Plant Flue Gases with Hitachi Ltd.; Toshio Katsube, Jun Shimamura, PostCapTM Technology Babcock-Hitachi K.K. Björn Fischer, Diego Andrés-Kuettel, markus Kinzl, 153. Vacuum Regeneration of Amine Solvent for Ralph Joh, Rüdiger Schneider, Siemens AG, Sector Post-Combustion Carbon Capture with Energy Compression Train Integration: a Way Forward? 144. Theoretical Study of Equilibrium Constants for Yann Le Moullec, EDF R&D CO Capture Solvents 2 154. Improved Flow Scheme and Operational Mayuri Gupta, Hallvard F. Svendsen, Norwegian Parameters for Amine-Based CO Capture University Of Science and Technology; Eirik Falck 2 Processes: A Rigorous Optimization Approach Da Silva, SINTEF Materials and Chemistry Yann Le Moullec, Thibaut Neveux, EDF R&D; Jean 145. Mass Transfer Between Carbon Dioxide and Pierre Corriou, Eric Favre, LRGP Liquid Droplets formed by A Novel Experimental 155. Oxidative Degradation of Alkanolamines with Set-Up Inhibitors in CO Capture Process Jingyi Han, Melaaen Morten, Eimer Dag, Tel-Tek 2 In-Young Lee, No-Sang Kwak, Ji-Hyun Lee, Jae-Goo Shim, Kyung-Ryung Jang, Korea Electric Power Corporation 156. Rate Based Modeling of Chilled Ammonia 165. Laboratory Rig for Atmospheric CO2 Absorption Process (CAP) in Aspen Plus® and Desorption Under Pressure Mu Li, Eddie Vuddagiri, Xi Chen, Rameshwar Lars Erik Øi, Joachim Lundberg, Morten Pedersen, Hiwale, Frederic Vitse, Alstom Power Carbon Per Morten Hansen, Morten Christian Melaaen, Capture R&D Execution Telemark University College 157. Experimental Study of Energy Requirement of 166. Babcock & Wilcox Power Generation Group’s
CO2 Desorption from Rich Solvent RSAT™ Process and Field Demonstration of the Xiaofei Li, Shujuan Wang, Changhe Chen, Tsinghua OptiCap™ Advanced Solvent at the National University Carbon Capture Center Christopher Poling, Ted Parsons, Jeb Geyheart, 158. Modelling, Simulation and Pilot-Plant Validation Stephen Moorman, Babcock & Wilcox Power of CO Capture Process Using Amine Absorbent 2 Generation Group for Coal Based Power Plant in South Korea Youngsub Kim, Ung Lee, Yeong Su Jeong, Seeyub 167. Development of a Rate-Based Model for CO 2 51 Yang, Jeongnam Kim, Chonghun Han, Seoul Absorption Using Aqueous NH3 in a Packed National University; Chi Seob Lee, Jaehyoung Kim, Column KEPCO E&C Guojie Qi, CSIRO and Tsinghua University; Hai Yu, Paul Feron, CSIRO; Shujuan Wang, Chnaghe 159. Representation of Piperazine-CO -H O System 2 2 Chen, Tsinghua University Using Extended-UNIQUAC and Computational Chemistry 168. The Impact of Design Correlations on Rate-
Hamid Mehdizadeh, Mayuri Gupta, Hallvard Based Modeling of a Large Scale CO2 Capture F. Svendsen, Norwegian University of Science and with MEA Technology; Eirick Flack da Silva, SINTEF Neda Razi, Hallvard Svendsen, Olav Bolland, Norwegian University of Science and Technology 160. Activity-Based Kinetics of the Reaction of Carbon Dioxide with Aqueous Amine Systems. 169. Modeling Pilot Plant Performance of an Case Studies: MAPA and MEA Absorber with Aqueous Piperazine Juliana Monteiro, Diego Pinto, Xiaso Luo, Hanna Darshan Sachde, Jorge Plaza, Eric Chen, Gary Knuutila, Ardi Hartono, Saddam Hussain, Rochelle, The University of Texas at Austin Emmanuel Mba, Hallvard Svendsen, NTNU 170. Equilibrium of MEA, DEA, MDEA and AMP with
161. IHI’s Amine-Based CO2 Capture Technology for Bicarbonate and Carbamate: A Raman Study Coal Fired Power Plant Gamunu Lasantha Samarakoon Samarakoon Shiko Makamura, Yasuro Yamanaka, Toshiya Perumbuli Arachchige, Klaus Jens, Telemark Matsuyama, Shinya Okuno, Hiroshi Sato, IHI University College; Niels Andersen, University of Corporation Oslo 162. Thermal Degradation of Piperazine Blends with 171. Multivariate Data Analysis for Parameters’ Effect
Diamines on CO2 Removal Efficiency Omkar Namjoshi, Le Li, Yang Du, Gary Rochelle, Udara Arachchige, Neelakantha Ayral, Pramod The University of Texas at Austin Ghimire, Maths Halstensen, Morten Melaaen, Telemark University College, Porsgrunn, Norway 163. Piperazine Degradation in Pilot Plants Paul Nielsen, Lynn Li, Gary Rochelle, The University 172. Vapour-Liquid Equilibrium for Novel Solvents
of Texas at Austin for CO2 Post Combustion Capture Anastasia Trollebø, Muhammad Saeed, Hallvard 164. Development of Carbon Dioxide Removal Svendsen, The Norwegian University of Science System from the Flue Gas of Coal Fired Power and Technology; Inna Kim, SINTEF Materials and Plant Chemistry Yukio Ohashi, Takashi Ogawa, Toshihisa Kiyokuni, Toshiba Corporation
www.ghgt.info • [email protected] 173. Measurement and Calculation of CO2 Solubility Pre Combustion and Absorption Kinetic Rate in Aqueous 182. Detailed Process Simulation of Pre-Combustion Solutions of TEDA and DMEA IGCC Plants using Coal-Slurry and Dry Coal Chuan Tong, Carlos Cebamanos Perez, Yanmei Gasifiers Yu, Jian Chen, Tsinghua University; Jose Carlos Hyungwoong Ahn, Stefano Brandani, Zoe Valle Marcos, EDF Beijing R&D Center, Yan Le Kapetaki, The University of Edinburgh Moullec, Fabrice Chopin, EDF R&D 183. Low-Temperature CCS from an IGCC Power Plant 174. Post Combustion CO Capture Using Supportec 2 and Comparison with Physical Solvents Amine Sorbents: High Pressure Regeneration David Berstad, Rahul Anantharaman, Petter Nekså, Rens Veneman, Sascha Kersten, Eim Brilman, SINTEF Energy Research University of Twente 184. Elevated Temperature Adsorption 175. Process Control Strategies for CO Regeneration 2 Characteristics of K-Promoted Hydrotalcites for in a 2-Stage Flash 52 Pre-Combustion Capture of Carbon Dioxide Matthew Walters, Ricardo Dunia, Thomas Shuang Li, Yixiang Shi, Ningsheng Cai, Tsinghua Edgar, Gary Rochelle, University of Texas at University Austin; Christopher Hundham, Technische Universität München 185. Overview of, and Experimental Methology for, Sorption Enhanced Hydrogen Production 176. A Hybrid Separation Process for the Recovery of Alissa Cotton, Kumar Patchigolla, John E. Oakley, Carbon Dioxide from Flue Gases Cranfield University Krzysztof Warmuzinski, Marek Tanczyk, Manfred Jaschik, Aleksandra Janusz-Cygan, Polish Academy 186. SEWGS Knocks Down Capture Costs by of Sciences 40%;Technology is Now Ready for Scale-Up Daniel Jansen, Edward van Selow, Paul Cobden, 177. Dynamic Simulation of Post-Combustion ECN; Giampaolo Manzolini, Ennio Macchi, Matteo Capture System Gazzani, Politecnico di Milano; Richard Blom, Zhaofeng Xu, Yali Xue, Zheng Li, Tsinghua Partow Henriksen, SINTEF; Rich Beavis, BP; University; Yongqi Lu, University of Illinois at Andrew Wright, Air Products PLC Urbana-Champaign 187. Solubility of Carbon Dioxide in 1-Butyl-3- 178. CO Absorption by Using a Low-Cost Solvent: 2 Methylimidazolium Phenolate Biogas Slurry Produced by Anaerobic Digestion Ki Tae Park, Jung Hoon Park, Soo Hyun Choi, of Biomass Seong-Pil Kang, Il-Hyun Baek, Korea Institute Shuiping Yan, Liqiang Zhang, Ping Ai, Yuanyuan of Energy Research Wang, Yanlin Zhang, Huazhong Agricultural University 188. Multi-Level Dynamic Simulation of Elevated Temperature Pressure Swing Adsorption System 179. A Study of Mass Transfer Kinetics of Carbon for Pre-Combustion CO Capture Dioxide in (Monoethanolamine + Water) by 2 Yan Zheng, Yixiang Shi, Ningsheng Cai, Shuang Li, Stirred Cell Tsinghua University Jiru Ying, Telemark Technological R&D Institute; Dag A. Eimer, Telemark University College 189. Improving a Pre-Combustion CCS Concept in Gas Turbine Combined Cycle for CHP Production 180. Hitachi’s Carbon Dioxide Scrubbing Technology Marjut Suomalainen, Antti Arasto, VTT Technical with H3-1 Absorbent for Coal Fired Power Plants Research Centre of Finland; Sari Siitonen, Gasum Koichi Yokoyamma, Miho Honoki, Eiji Miyamoto, Oy Shigehito Takamoto, Hirofumi Kikkawa, Babcock- Hitachi K. K. Kure Research Laboratory; Brandon 190. Fundamental Modelling of a Membrane Reactor Pavlish, EERC; Takanori Nakamoto, Toshio Katsube, with in situ Hydrogen Separation and Babcock-Hitachi K. K. Kure Division; Terufumi Combustion Kawasaki, Hitachi Ltd; Song Wu, Hitachi Power Torleif Weydahl, Andrea Gruber, SINTEF Energy Systems America, Ltd Research; Prashant S. Samilath, NTNU 181. Improved Hydrotalcite-Type Compounds for
Post-Combustion CO2 Abatement Emiliana Dvininov, Hazel Stephenson, MEL Chemicals; Holly Krutka, ADA Environmental Solutions Retrofitting 198. Dynamic Measurements of CO2 Flow in Water Saturated Porous Medium at Low Temperature 191. The Techno-Economic Prospect of Retrofitting Using MRI Natural Gas Combined Cycle Power Plants in Mingjun Yang, Yongchen Song, Ningjun Zhu, China: a Case Study of CCGT Power Plants in Yuechao Zhao, Dalian University of Technology Huizhou and Shenzhen, Guangdong
Jia Li, Jon Gibbins, University of Exeter; Mathieu CO2 Utilisation Options Lucquiaud, University of Edinburgh; David Reiner, CO for Enhanced Geothermal University of Cambridge; Di Zhou, Chinese 2
Academy of Sciences 199. CO2 Utilization for Enhanced Geothermal Energy Recovery: Effects of Salt Precipitation in a Techno-Economic Comparisons Fractured Reservoir
192. Evaluation of CO2 Purification Requirements Andrea Borgia, Karsten Pruess, Timothy Kneafsey, and the Selection of Processes for Impurities Lehua Panm Curtis Oldenburg, Lawrence Berkeley
Deep Removal from the CO2 Product Stream National Laboratory 53 Zeina Abbas, Mohammad Abu Zahra, Toufic 200. Geothermal Energy Production at Geologic CO Mezher, Masdar Institute of Science and 2 Sequestration Sites: Expanding Opportunities Technology for Renewable Power and CCS 193. Evaluation of Performance and Cost of Jimmy Ranpolph, University of Minnesota and
Combustion Based Power Plants with CO2 Heat Mining Company, LLC; Ben Adams, Thomas Capture in the UK Kuehn, Martin Saar, Jeffrey Bielicki, Melissa Pollak, Elena Catalanotti, Kevin Hughes, Richard Porter, Nathan Paine, University of Minnesota, Steven Taff, Mohamed Pourkashanian, University of Leeds; Geological Storage Consultants, LLC John Price, Centre for Low Carbon Futures 201. Numerical Investigation of Enhanced
194. Evaluation and Comparison of the Part Load Geothermal System with CO2 as Working Fluid
Behaviour of the CO2 Capture Technologies Feng luo, Ruina Xu, Peixue Jiang, Beijing
Oxyfuel and Post-Combustion Key Laboratory of CO2 Utilization and Reduction Volker Roeder, Christopher Hasenbein, Alfons Technology and Tsinghua University Kather, Hamburg University of Technology 202. Potential Global Implications of Gas Production
195. Techno-Economic Evaluation of an Advanced from Shales and Coal for CO2 Geological Storage
Solid Sorbent-Based CO2 Capture Process for Michael Godec, Hunter Jonsson, Advanced Natural Gas Combined Cycle Power Plants Resources International, Inc.; Ludmilla Basava- Adel Seif El Nasr, Mohammad Abu Zahra, Masdar Reddi, IEAGHG Institute of Science and Technology; Thomas CO Use for Production of Algae or Chemicals Nelson, RTI International 2 203. Valorization of CO by Co-Electrolysis of CO /H O Other 2 2 2 at High Temperature for Syngas Production 196. Addressing Technology Uncertainties in Power Chakib Bouallou, Youness El Fouih, Youssef Redissi, Plants with Post-Combustion Capture ARMINES MINES ParisTech, CEP Mathieu Lucquiaud, Hannah Chalmers, Olivia 204. Recycling of Carbon Dioxide to Produce Ethanol Errey, Jon Gibbins, The University of Edinburgh; Xi Chakib Bouallou, Youness El Fouih, ARMINES Liang, University of Exeter MINES ParisTech, CEP 197. The Role of SO in the Chemistry of Amine-Based x 205. New Methodologies for the Integration of Power CO Capture in PCC 2 Plants with Algae Ponds Yaser Beyad, Robert Burns, Marcel Maeder, Earl Goetheer, Peter Van den Broeke, Sven Van der University of Newcastle; Graeme Puxty, CSIRO Gijp, Rob Van de Stel, TNO Energy Technology
www.ghgt.info • [email protected] 206. Development of a Process for Aqueous Mineral 214. Geologic Carbon Sequestration through Carbonation on Municipal Solid Waste Enhanced Oil Recovery Incinerator Bottom Ash with Recovery of Useful Bruce Hill, Clean Air Task Force; Susan Hovorka, Chemicals University of Texas, Texas Bureau of Economic Shuji Hamano, Satoshi Okumura, Tsunehira Geology; Steve Melzer, Melzer Consulting Yamamoto, Mamoru Kondo, Hitachi Zosen 215. Densities and Excess Volumes of CO Decane Corporation 2 Solution from 12 to 18MPa and 313 to 343K
207. Turning CO2 into Valuable Chemicals Wei-wei Jian, Yi Zhang, Yong-Chen Song, Key Oluwafunmilola Ola, Mercedes Moroto-Valer, Dalian University of Technology Sarah Mackintosh, NCCCS, CICCS, University of 216. A Feasibility Study of the Integration of Nottingham Enhanced Oil Recovery (CO2 Flooding) with CO2
208. A Study of Carbonate Synthesis from CO2 in Storage in the Depleted Oil Fields of the Ordos 54 Combustion Exhaust Gas Basin, China Hideki Shintaku, Tetsuya Takemoto, Shinichi Zunsheng Jiao, Ronald Surdam, University of Kwawasak, OSAKA GAS CO., LTD.; Fumihiro Wyoming Carbon Management Institute; Ruimin Hanasak, KRI, Inc. Gao, Research Institute of the Yanchang Petroleum (Group) Co., LTD; Lifa Zhou, Yajun Wang, Tingting ECBM Luo, Shaanxi Provincial Institute of Energy
209. Geo-Sequestration of CO2 in the Coal Seams, Resources and Chemical Engineering with Special References to the Effects of Coal 217. Simulation of CO -Oil Minimum Miscibility Swelling on the Permeability 2 Pressure (MMP) for CO Enhance Oil Recovery Ferian Anggara, Kyushu University and Gadjah 2 (EOR) and CO Storage using Neural Networks Mada University; Kyuro Sasaki, Yuichi Sugai, 2 Zhiwu Liang, Paitoon Tontiwachwuthikul, Kyushu University Teerawat sema, Peng Luo, Hunan University and 210. Two Phase Relative Permeability of Gas and University of Regina; Ruimin Gao, Research Water in Coal for Enhanced Coalbed Methane Institute of the Yanchang Petroleum (Group)
Recovery and CO2 Storage Co., LTD; Fanhua Zeng, University of Regina; Sevket Durucan, Mustafa Ahsan, Amer Syed, Xiangzeng Wang, Shaanxi Yanchang Petroleum Ji-Quan Shi, Anna korre, Imperial College London (Group) Corp. Ltd. 211. Coal-Seq III Consortium: Advancing the Science 218. Pore Level Visualisation and Simulation of CO2 of CO2 Sequestration in Coal Seam and Gas Shale Miscible Injection with Gravity Domination Reservoirs Zeeshan Mohiuddin, The University of Adelaide George Koperna, Anne Oudinot, Advanced 219. Integrated CCS Aspect into CO EOR Project Resources International, Inc.; Satya Harpalani, 2 Under High Range of Reservoir Properties and Southern Illinois University; Khaled Gasem, Operating Plans Oklahoma State University, Ian Palmer, Higgs- Vitsarut Attavitkamthorn, Javier Vilcáez, Kozo Sato, Palmer Technologies The University of Tokyo 212. Adsorption Model Equation for Multi- 220. Measurement of Immiscible CO Flooding Component Gas on Coalbed and its Assessment 2 Processes and Permeability Reduction due to Kei Tanaka, Sohei Shimada, The University of Asphaltene Precipitation by X-ray CT Imaging Tokyo; Naito Sakimoto, National Institute of Tonglei, Wang, Yongchen Song, Yuechao Zhao, Advanced Industrial Science and Technology Yu Liu, Ningjun Zhu, Key Laboratory of Ocean EOR Energy Utilization and Energy Conservation of the Ministry of Education 213. Monitoring and Modeling CO2 Behavior in Multiple Oil Bearing Carbonate Reefs for a Large 221. Research Progress of the Interfacial Tension in Scale Demonstration in Northern Lower Supercritical CO2-Water/Oil System Michigan Wanli Xing, Yi Zhang, Yongchen Song, Dalian Neeraj Gupta, Lydia Cumming, Mark Kelley, University of Technology Darrell Paul, Srikanta Mishra, Jaqueline Gerst, 222. CO Miscible Simulation for Magnetic Resonance Matt Place,Battelle; Rick APrdini, Allen Modroo, 2 Imaging Coreflood Tests Robert Mannes, Core Energy LLC Wenzhe Yang, Yongchen Song, Yu Liu, Wei-Haur Lam, Yuechao Zhao, Ningjun Zhu, Lanlan Jiang, Dalian University of Technology 223. Visualisation of Water Flooding and Subsequent 231. Mechanism of Electromethanogenic Reduction
Supercritical CO2 Flooding in Fractured Porous of CO2 by a Thermophilic Methanogen Media with Permeability Heterogeneity Using Yutaka Onaka, Masahiro Hara, Haijime Kobayashi, MRI Qian Fu, Hideo Kawaguchi, Javier Vilcáez, Kozo Yuechao Zhao, Tonglei Wang, Yongchen Song Yu Sato, The University of Tokyo Liu, Min Hao, Ningjun Zhu, Dalian University of Commercial Issues Technology Commercial Relationships 224. Experiment Study on CO2/Water Two Phase Flow in Porous Medium Using Magnetic 232. Optimal Contracts for Integrated CCS-EOR Resonance Imaging Projects Lanlan Jiang, Yongchen Song, Mingjun Yang, Yu Anna Agarwal, Massachusetts Institute of Liu, Ningjun Zhu, Dalian University of Technology Technology 225. Magnetic Resonance Imaging Study of the Finance 55 Miscibility of Supercritical CO and n-decane in 2 233. Develop a Decision-Framework for Managing Porous Media CCS Investment Flexibilities in Fossil Fuel Ningjun Zhu, Yongchen Song, Yu Liu, Yuechao Power Plants through Stochastic System Zhao,Lanlan Jiang, Tonglei Wang, Hongfei Zheng, Dynamic Programming Dalian University of Technology Xi Liang, Mathieu Lucquiaud, Jon Gibbins, Other University of Edinburgh; Jia Li, College of Engineering, Mathematics, Physical Sciences 226. Supercritical Carbon Dioxide as Green Product for Effective Environmental Remediation 234. Investment Decisions Under Uncertainty: CCS Abdulla Elhenshir, Libyan Petroleum Institute; Competing Green Energy Technologies Abeer Subkha, National Oil Corporation Wilko Rohlfs, RWTH Aachen University; Reinhard Madlener, E.ON Energy Research Center and 227. Carbon Utilization to meet California’s Climate RWTH Aachen University Change Goals Elizabeth Burton, John Henry Beyer, Lawrence Value Chain Berkeley National Laboratory; William Bourcier, 235. Value Chain Analysis of CO Storage by using the Lawrence Livermore National Laboratory; Kevin 2 ECCOTool: A Case Study of the Dutch Offshore O’Brien, Energy Commercialization, LLC; Niall Daniel Loevre, Filip Neele, TNO, Chris Hendriks, Mateer, University of California; John Reed, Kiverdi, Joris Koorrnneef, Ecofys Inc. Other 228. Economic and Market Analysis of CO2 Utilisation 236. Selection of Optimal CO Capture Plant Capacity Technologies - Focus on CO2 Derived from North 2 Dakota lignite for Better Investment Decisions Jason Laumb, Robert Cowan, Alexander Rahul Anantharaman, Simon Rousannaly, Snorre Azenkeng, Loreal Heebink, Sheila Hanson, Melanie Westman, Jo Husebye, SINTEF Energy Research Jensen, Peter Letvin, Laura Raymond, EERC Demonstration Projects and Major International 229. Mineral Carbonation for Carbon Sequestration and Natioanl CCS Research, Developemnt and with Industrial Waste Demonstration Programs Myoungwook Mun, Heechan Cho, Seoul National Development of Best Practice Guidelines University 237. U.S. DOE’s Efforts to Promote Knowledge 230. Electromethanogenic CO Conversion by 2 Sharing Opportunities from the R&D Efforts: Subsurface-Reservoir Microorganisms Development of the U.S. National Atlas and Yoshihiro Kuramochi, Qian Fu, Hajime Kobayashi, Carbon Storage Best Practice Manuals Hideao Kawaguchi, Javier Vilcáez, Kozo Sato, John Litynski, Andrea Mcnemar, Traci Rodosta, Masayuki Ikarashi, Tatsuki Wakayama, Haruo Dawn Deel, U.S. DOE NETL; Derek Vikara, Ram Maeda, The University of Tokyo Srivastava, Keylogic Systems; Larry Meyer, Robert Kane, Leonardo Technologies, Inc.
www.ghgt.info • [email protected] Experiences 245. Lacq-Rousse CO2 Capture and Storage Demonstration Pilot: Lessons Learnt from 238. Overview of the CO2CRC Otway Residual Reservoir Modeling Studies Saturation and Dissolution Test Sylvian Thibeau, Daniel Avila, Pierre Chiquet, Lincoln Paterson, Tess Dance, Jonathan Ennis-King, Catherine Prinet, Marc Lescanne, TOTAL Charles Jenkins, Linda Stalker, CO2CRC/CSIRO
Earth Science and Resource Engineering; Chris 246. How to Monitor Subsurface CO2: Lessons from
Boreham, Ralf Haese, CO2CRC/Geoscience the IEAGHG Weyburn-Midale CO2 Monitoring Australia; Mark bunch, CO2CRC/University and Storage Project of Adelaide; Barry Freifeld, Yinqi Zhang, Lawrence Donald White, Geological Survey of Canada Berkeley National Laboratory; Matthias Raab, Program Overviews Rajindar Singh, CO2CRC 247. The South African Centre for Carbon Capture 239. Development of Conceptual Design for and Storage – Delivering CCS in the Developing Commercial-Scale Geologic Storage and 56 World Monitoring System at American Electric Power Brendan Beck, Tony Surridge, Sibbele Hietkamp, Mountaineer Plant South African Centre for CCS Neeraj Gupta, Mark Kelley, Rodney Osborne, Mark Moody, Srikanta Mishra, Jacqueline 248. The CLIMIT Programme and its Strategy Gerst, Erica Howat, Battelle; Charlotte Sullivan, for Norweigian Research, Development and Battelle Pacific Northwest Division; Gary Demonstration of CCS Technology Spitznogle, Indra Bhattacharya, Mike Hammond, Svein G. Bekken, Klaus Schöffel, Ståle Aakenes, American Electric Power Torre Hatlen, Gassnova SF; Åse Slagtern, Research Council of Norway; Lars Erik Øi, Telemark 240. Regulating Pilot CCS Projects in Parallel to University College Developing Legislation Based on the CO2CRC
Otway Project Experience 249. Latest CO2 Transport, Storage and Monitoring Namiko Ranasinghe, Department of Primary R&D Progress in Republic of Korea: Offshore Industries Geologic Storage Cheol Huh, Seong-Gil Kang, Korea Ocean Research 241. Project Update of 500 TPD Demonstration Plant and Development Institute; Myong-Ho Park, Korea for Coal-Fired Power Plant National Oil Corporation; Jung-Seok Lee, NeoEnBiz Takuya Hirata, Hiromitsu Nagayasu, Takashi Co Kamijo, Yasuo Kubota, Mitsubishi Heavy Industries, Ltd; Tatsuya Tsujiuchi, Takahito Yonekawa, Paul 250. U.S. DOE’s R&D Program to Develop Wood, Mitsubishi Heavy Industries America, Inc; Infrastructure for Carbon Storage: Overview of Michael Ivie, Nick Irvin, Southern Company the Regional Carbon Seqeustration Partnerships Services, Inc and Other R&D Field Projects John Litynski, Traci Rodosta, U.S. DOE NETL; Derek Lessons Learnt Vikara, Ram Srivastava, Keylogic Systems 242. Aspects of the Storage Permit Application for 251. The CO Capture Project – Status and Prospects CO Storage in the Depleted P18-4 Gas Field 2 2 of the Capture Program Offshore The Netherlands Ivano Miracca, Saipem S.p.A. (Eni); Mark Crombie, Andreas Kopp, ROAD, Maasvlakte CCS Project C.V. Jonathan Forsyth, BP Alternative Energy and E.ON Gas Storage GmbH; Menno Ross, International Ltd.; Cliff Lowe, Chevron Energy Tom Jonker, ROAD, Maasvlakte CCS Project C.V.; Technology Company; Gustavo Torres Moure, Chris Gittins, Willem-Jan Plug, TAQA Energy BV Petrobras - CENPES; Mahesh Iyer, Shell 243. The SECARB Anthropogenic Test: Status from the International Exploration & Production Inc.; Mark Field Bohm, Suncor Energy Services Inc. George Koperna, Vello Kuuskraa, David 252. BIGCCS Centre - Supporting Large-Scale CCS Reisenberg, Advanced Resources International, Implementation Inc.; Richard Rhudy, Robert Trautz, EPRI; Jerry Mona J. Mølnvik, SINTEF Energy Research Hill, Southern States Energy Board; Richard
Esposito, Southern Company 253. Large-Scale CO2 Capture Demonstration Plant Using Fluor’s Econamine FG Plus(sm) Technology 244. What Have We Learnt from Operational CCS at NRG’s WA Parish Electric Generating Station Demonstrations - Phase 1b Jeffrey Scherffius, Satish Reddy, Fluor Enterprises, Samantha Neades, Tim Dixon, IEAGHG; Michael Inc.; john Klumpyan, Anthony Armpriester, NRG Haines, COFree Technologies Energy, Inc. 254. Developing CCS into a Realistic Option in a 263. CO2 Storage at the Ketzin Pilot Site, Germany: Country’s Energy Strategy Fourth Year of Injection, Monitoring, Modelling Daniel Sutter, Mischa Werner, Alba Zappone, and Verification Marco Mazotti, Institute of Process Engineering, Sonja Martens, Axel Liebscher, Fabian Möller, ETH Zurich Jan Henninges, Thomas Kempka, Stefan Lüth, Ben 255. Tomakomai CCS Demonstration Project in Japan Norden, Bernhard Prevedel, Martin Zimmer, Daiji Tanase, Takashi Sasaki, Toru Yoshii, Satoshi Michael Kühn, A. Szizybalski, GFZ German Motohashi, Yoshihiro Sawada, Satoshi Aramake, Research Centre for Geosciences Yoshinori Yamanouchi, Tomoyuki Tanaka, Shiro 264. The Lacq Industrial CCS Reference Project Ohkawa, Ryuichi Inowaka, Japan CCS Co., Ltd. (France) 256. Innovative Zero-Emission Coal Gasification Jacques Monne, Marc Lescanne, Samuel Lethier, Power Generation Project Catherine Prinet, TOTAL E&P Tasuhiro Yamauchi, Katsuya Akiyama, New Energy 265. On Potential Showstoppers for Carbon Capture 57 and Indusrial Technology Development and Storage (CCS) in South Africa Organaization Ronald Munyai, Brendan Beck, Tony Surridge, 257. Chilled Ammonia Process Installed at the South African Centre for Carbon Capture and Technology Center Mongstad Storage Staffan Jönsson, Vauhini Telikapalli, Alstom 266. EnBW’s Post-Combustion Capture Pilot Plant Public-Private Partnerships at Heilbronn – Results of the First Year’s Testing Programme 258. Amine Thermal Reclamation; Technology Alexander Rieder, Sven Unterberger, EnBW Development from Lab to Large-Scale Pilot Kraftwerke AG Testing Oddvar gorset, Vibeke Andersson, Aker Clean 267. Pilot Scale Testing of Polymeric Membranes for CO Capture from Coal Fired Power Plants Carbon 2 Marius Sandru, Taek-Joon Kim, SINTEF Materials 259. OCTAVIUS: A New FP7 Project Demonstrating and Chemistry; Weislaw Capala, ICHP Research
CO2 Capture Technologies Institute; Martin Huijbers, KEMA; May-Britt Hägg, Paul Broutin, IFPEN; Hanne Kvamsdal, SINTEF NTNU Materials and Chemistry; Cristiana La Marca, ENEL; Peter van Os, TNO; Nick Booth, E-ON New Building 268. Doosan Power Systems OxyCoal™ Burner and Technology Technology Development David Sturgeon, Jim Rogerson, Gerry Hesselmann,
260. Geochemical Assessment of the Injection of CO2 Doosan Power Systems into Rousse Depleted Gas Reservoir Part I: Initial 269. The Proposed CO Test Injection Project in South Mineralogical and Geochemical Conditions in 2 the Mano Reservoir Africa Sylvain Thibeau, Pierre Chiquet, Marc Lescanne, Ceri Vincent, Sam Holloway, British Geological Catherine Prinet, TOTAL Survey; David van der Spuy, Petroleum Agency South Africa; Jurie Viljoen, Magda Roos, Martinus 261. Geochemical Assessment of the Injection of Cloete, Council for Geoscience; Robert Tippmann,
CO2 into Rousse Depleted Gas Reservoir Part II: Climatekos; Andrew Gilder, IMBEWU Sustainability
Geochemical Impact of the CO2 Injection Legal Specialists (Pty) Ltd; Brendan Beck, South Jean-Pierre Girard, Sylvain Thibeau, Pierre Chiquet, African Centre for Carbon Capture and Storage; Marc Lescanne, Catherine Prinet, TOTAL Frank van Bergen, TNO 262. Preinjection Reservoir Fluid Characterization at a CCS Demonstration Site: Illinois Basin – Decatur Project, USA Randall Locke II, Bracken Wimmer, Abbas Iranmenesh, Ivan Krapac, Illinois State Geological Survey, David Larssen, Walter Salden, Christopher Patterson, Schlumberger Water Services; Jim Kirksey, Schlumberger Carbon Services
www.ghgt.info • [email protected] Education 279. CO2 Injection for EOR in a Middle-East Carbonate Reservoir: Potential Impairment of Injectivity Experiences due to Salt Precipitation
270. CO2 Injection for Geological Storage: A Series of Holger Ott, Jeroen Snippe, Kees de Kloe, Shell Activities for Training Professionals and Global Solutions International; Hisham Husain, Ali Educating Students in Geological Carbon Abri, PDO Storage 280. Precipitation of Salt in Bentheimer Sandstone Hilary Olson, Steven L. Bryant, Jon E. Olson, Iona Induced by CO2 Injection: MicroCT study Williams, The University of Texas at Austin Aptrick van Hemert, Saskia Roels, Pacelli Zitha, 271. Meeting the Grand Challenge for Future Carbon Delft University of Technology Management Engineers and Scientists: 281. Numerical Investigation for Enhancing CO Stimulating Workforce Capacity through Teacher 2 Injectivity for the Shenhua Erdos CCS Professional Development Demonstration Project 58 Hilary Olson, Steven L. Bryant, Jon E. Olson, Larry Keni Zhang, Yaqin Xu, Lulu Ling, Yang Wang, Lake, The University of Texas at Austin Litang Hu, Beijing Normal University 272. A Showcase for Geological CO Storage – 2 282. Experimental Study of the Injection System for Replacing Misconceptions by Visual Demonstration Project of CO Geologic Storage Explanations 2 Byoung-Woo Yum, KIGAM; Soek Ho Yoon, Kong Mischa Werner, Daniel Sutter, Andreas Krättli, Hoon Lee, Jungho Lee, Young Kim, KIMM Özkan Lafci, Robin Mutschler, Pascal Oehler, jan Winkler, Marco Mazzotti, ETH Zurich 283. Injection pump for CCS Shigeru Yoshikawa, EBARA Corporation Reviews Costs - Storage Related 273. NMR Studies on Amine-CO2-H2O Systems in PCC:
A Review 284. Cost Estimates for the CO2 Geological Storage in Cristina Perinu, Klaus-Joachim Jens, Telemark Deep Saline Aquifers Offshore Japan: a Case University College; Bjørnar Arstad, SINTEF Study Masato Takagi, Kazuo Koide, Junichi Shimizu, RITE; Develpments in Geological Storage Chikara Iwamoto, Nippon Steel Engineering Co.
CO2 Injectivity Ltd.; Masao Ohoka, Seiichi Ikeda, Hiroyuki Azuma, Oyo Corporation 274. Determination of Stress Dependent CO2-Brine Relative Permeabilities of Low Permeable Rocks Environmental Impacts of CO2 Storage Ardy Arsyad, Yasuhiro Mitano, Hiro Ikemi, Civil and 285. Modelling Dispersion of CO Plumes in Structural Engineering Department; 2 Seawater as an Aid to Monitoring and Tayfun Babadagli, School of Petroleum Eng. Understanding Ecological Impact University of Alberta Canada; Kyuro Sasaki, School Jerry Blackford, Ricardo Torres, Plymouth Marine of Petroleum Eng. Kyushu University Japan Laboratory 275. A New Mathematical Model for Predicting CO 2 286. Systems Analysis of Field and Laboratory Injectivity Experiments Considering Impacts of CO Ehsan Azizi, Yildiray Cinar, The University of New 2 Leakage in Terrestrial Systems South Wales and CO2CRC Alexander Bond, Richard Metcalfe, Philip
276. Thermal Modeling in and Around a CO2 Injector Maul, Paul Suckling, Kate Thatcher, Russell Wlake, Binglu Ruan, Ruina Xu, Peixue Jiang, Tsinghua Quintessa Ltd, Karon Smith, Mike Steven, University; Lingli Wei, Shell (China) Limited University of Nottingham; Daniel Rasse, Norwegian Institute for Agricultural and 277. A Unified Formula for Determination of Environmental Sciences; Dave Jones, British Wellhead Pressure and Bottom-Hole Pressure Geological Survey Mingze Liu, Bing Bai, Xiaochun Li, Chinese Academy of Sciences 287. Simulation of the Near Field Physiochemical Impact of a CO Leakage Field Experiment in 278. Evaluation of CO Underground Behavior from 2 2 Loch Linnhe – Scotland Injectors Time-Lapse Pressure Fall Off Analysis: a Marius Dewar, Wei Wei, Jinhai Yang, Baixin Chen, Case Study of CO Aquifer Storage Project 2 Bahman Tohidi, Heriot-Watt University Mayu Otake, INPEX Corporation 288. Effects of Elevated CO2 on the Nitrification 298. Numerical Prediction of the Diffusion of CO2 Activity of Microorganisms in Marine Sediment Seeping from Seabed in Ardmuchnish Bay Masatoshi Hayashi, Yuji Watanabe, Akifumi Chaki Mori, Toru Sato, Yuki Kano, University of Shimamoto, KANSO Technos; Jun Kita, RITE Tokyo; Dmitry Aleynik, Scottish Association for Marine Science 289. A Numerical Study on CO2 Seepage from Offshore Geologic Storage Site 299. Mixing Gas Migration in Fractured Rock Through Cheul Huh, Jung-Yeul Jung, Meang-Ik Cho, Unsaturated and Water-Saturated Layer: Result Seong-Gil Kang, Korea Ocean Research and of a Pneumatic Gas Injection Test Development Institute Very Susanto, Kyuro sasaki, Yuichi Sudai, Teruhisa Yamashiro, Kyushu University 290. Assessing Model Uncertainties Through Proper Experimental Design 300. An Experimental Study of the Effects of Potential
Hilde Kristine Hvidevold, Guttorn Alendal, Truls CO2 Seepage in Sediments Jahannessen, Trond Mannseth, University of Yang Wei, CICCS and NCCCS and University of 59 Bergen Nottingham; Giorgio Caramann, Mercedes Maroto-Valer, CICCS and NCCCS; Paul Nathanial, 291. Effects of Impurities in CO Stream on Marine 2 Michael Steven, University of Nottingham Organisms Jun Kita, RITE; Hideaki Kinoshita, MERI Experiences 292. Werkendam, The Dutch Natural Analogue for 301. Assessing Field Pressure and Plume Migration in
CO2 Storage – Long-Term Mineral Reactions CO2 Storages: Application of Case-Specific Marielle Koenen, Laura J. Wasch, Marit E. van Workflows at In Salah and Sleipner Zalinge, Susanne Nelskamp, TNO Jean-Pierre, Deflandre, Audrey Estublier, Axelle Baroni, Alexander Fornel, Vincent Clochard, 293. Estimation of Mass Transfer Coefficient of Nicolas Delepine, IFP Energies Nouvelles Contaminant Migration Across CO2 - Brine
Interface in CO2 Geological Sequestration 302. Effect of Reservoir Heterogeneity of Haizume Yong Yang, Yongzhong Liu, Xiaoli Zhang, Xi’an Formation, Nagaoka Pilot Site, based on High- Jiaotong University Resolution Sedimentological Analysis Shun Chiyonobu, Takahiro Nakajima, Yi Zhang, 294. Monitoring the Safety of CO Sequestration in 2 Zique Xue: RITE; Takeshi Tsuji, Kyoto University Jingbian Field, China Jinfeng Ma, Xiaoli Zhang, Yimmao Wei, Zhenliang 303. Sensitivity Study of the Reactive Transport
Wang, Junjie Ma, Shaojing Jiang, Lin Li, Northwest Model for CO2 Injection into the Utsira Saline University; Xiangzeng Wang, Ruimin Gao, Chunxia Aquifer Using 3D Fluid Flow Model History Huang, Shaanxi Yanchang Petroleum Co. Ltd. Matched with 4D Seismic Data Audrey Estublier, Alexander Fornel, Teddy Parra, 295. Simulated CO Leakage Experiment in Terrestrial 2 Jean-Pierre Defalndre, IFP Energies Nouvelles Environment: Monitoring and Detecting the Effect on a Cover Crop Using 13C Analysis 304. The Site Monitoring of the Lacq Industrial CCS Christophe Moni, Daniel Rasse, Bioforsk Demonstration Project (France). Lessons Learned after Two Years and a Half of CO 296. Simulations of Upward Leakage of CO in Long- 2 2 Injection Column Flow Experiments: The Impact of Marc Lescanne, Catherine Prinet, Daniel Avila, Boundary Conditions and Three-Phase Relative Jean-Claude Miqueu, Jacques Monne, TOTAL Permeability
Curtis Oldenburg, Cristine Doughty, Patrick 305. Multi-Phase Equilibrium in a CO2-Filled Dobson, Lawrence Berkeley National Laboratory; Observation Well at the Ketzin Pilot Site Catherine Peters, Princeton University Matteo Loizzo, Actys BEE; Jan Hennings, Martin Zimmer, Axel Liebscher, GFZ German Research 297. Hypothetical Impact Scenarios for CO Leakage 2 Center for Geosciences from Storage Sites Alan Paulley, Richard Metcalfe, Michael Egan, 306. Overview, Status and Future of the Fort Nelson Philip Maul, Quintessa Ltd; Laura Limer, Limer CCS Project Scientific Consulting Ltd; Alv-Arne Grimstad, James Sorensen, Charles Gorecki, Lisa SINTEF Petroleum Research Botnen, Edward Steadman, John Harju, EERC
www.ghgt.info • [email protected] 307. Role of Impurities on CO2 Injection: Experimental 314. A Methodology to Assess Increased Storage
and Numerical Simulation of Thermodynamic Capacity Provided by Fracture Networks at CO2
Properties of Water-Salt-Gas Mixtures (CO2 Storage Sites: Application to In Salah Storage + Co-Injected Gases) Under Geological Storage Site Conditions James Smith, Sevket Durucan, Anna Korre, Ji-Quan Jerome Sterpenich, Jean-Noel Jaubert, Eric Favre, Shi, Imperial College London Université de Lorraine; Mohamed Azarouel, 315. A Coupled Reservoir Simulation-Geomechanical BRGM; Veroniquie Lachet, IFPEN; Christophe Modelling Study of the CO Injection-Induced Coquelet, Vincent Lagneau, ARMINES; Pierre 2 Ground Surface Uplift Observed at Krechba, In Chiquet, Total Salah 308. Lessons in the Development of Storage Projects Ji-Quan Shi, James Smith, Sevket Durucan, Anna from the Global CCS Institute Project Support Korre, Imperial College London Program 316. Effect of CO Injection Temperature on Caprock 60 Steve Whittaker, Kathy Hill, Angeline Kneppers, 2 Stability Global CCS Institute Gennady Gor, Jean-Herve Prevost, Princeton Modelling Tools & Approaches University 309. Development of TOUGH-FrontISTR, a Numerical 317. The Role of Static and Dynamic Modelling in the Simulator for Environmental Impact Assessment Fort Nelson CCS Project
of CO2 Geological Storage Charles Gorecki, Terry Bailey, Guoxiang Liu, James Ryosuke Aoyagi, Ryuta Imai, Hiroyuki Kobayashi, Sorensen, Edward Steadman, EERC Osamu Kitamura, Nobuhisa Goto, Mizuho 318. Stochastic Predictions on CO Leakage Information and Research Institute, Inc; Jonny 2 Potentials Based on Geostatistical Simulations in Rutqvist, Lawrence Berkeley National Laboratory Heterogeneous Fields 310. New Developments from the Coupled Simulator Weon Shik Han, Ozlem Acar, Eungyu Park,
ECLIPSE–OpenGeoSys for Simulation of CO2 Kyungpook National University; Kue-Young Kim, Storage – Geomechanical Feedback on the Fluid Korea Institute of Geoscience and Mineral Flow Resources Katharina Benisch, Sebastian Bauer, University of 319. On Uncertainties in Modeling CO -Brine-Caprock Kiel; Bastian Graupner, Swiss Federal Nuclear 2 Interactions Safety Inspectorate ENSI Dag Wessel-Berg, University of Oslo 311. Prediction of Plume Migration Using Injection 320. Dynamic Models of CO Injection in the Surat Data and a Model Selection Approach 2 and Bowen Basins, Queensland, Australia Sayantan Bhowmik, Sanjay Srinivasan, Steven Suzanne Hurter, Peter Probst, Yusuf Pamucku, Bryant, University of Texas at Austin Sebastian Gonzalez, Schlumberger Carbon 312. A High Resolution Approach to Simulating Services; Andrew Garnett, Formerly CEO & Project Regional Migration and Well Risk at the IEAGHG Director ZeroGen, Australia Weyburn-Midale CO Storage Project 2 321. Accelerating of the Reservoir Simulator TOUGH2 Andrew Cavanagh, Landmark-Halliburton; by GPU Benjamin Rostron, University of Alberta Yusuke Ishizawa, Keita Matsumoto, Progress
313. Impact of Co-Injected Gases on CO2 Storage Technologies, Inc; Kozo Sato, The University of Sites: Geochemical Modeling of Experimental Tokyo; Komei Okatsu, Yuji Miyake, Japan Oil, Gas Results and Metals National Corporation Jerome Corvisier, Anne-Flore Bovalot, Vincent 322. Uncertainty Quantification of CO Plume Lagneau, MINES ParisTech, Geosciences 2 Migration Using Static Connectivity of Geologic Center; Pierre Chiquet, TOTAL, CSTJF; Stephane Features Renard, Universite de Lorraine, G2R Hooyoung Jeong, Sanjay Srinivasan, Steven Laboratory and IFP Energies Nouvelles; Jerome Bryant, The University of Texas at Austin Sterpenich, Jacques Pironon, Universite de Lorraine, G2R Laboratory 323. Development of a SAFT Equation of State for the
H2S-CO2-H2O-NaCl System for CO2 Geological
Storage with Co-Injection of H2S Xiaoyan Ji, Lulea University of Technology; Chen Zhu, Indiana University and University of Oslo 324. Investigation of Potential Far Field Impacts on 332. Asessing the Geomechanical Responses of
Freshwater Resources Related to CO2 Storage: Storage System in Geological CO2 Storage: An a Case Study of the HARP Project Site in Alberta, Introduction of Research Program in the Canada National Institute for Advanced industrial Jon Jones, Alberta Innovates - Technology Futures Science and technokogy (AIST) and University of Waterloo; James Brydie, Ernie Yasuko Okuyama, Takahiro Funatsu, Xinglin Perkins, Alberta Innovates - Technology Futures Lei, Takashi Fuji, Shinsuke Nakao, Institute for Geo-Resources and Environment, GSJ, AIST; 325. Effects of Heterogeneous Seal Layer Property on Shinichi Uehara, Toho University The Long-Term Behaviour of CO2 Injected into
Deep Saline Aquifers 333. Large-Scale Impact of CO2 Storage Operations: Yuki Kano, Tsuneo Ishido, Geological Survey of Dealing with Computationally Intensive Japan/AIST Simulations for Global Sensitivity Analysis Jeremy Rohmer, Benoit Issautier, Christophe 326. CO -Brine-Mineral Interfacial Reactions Coupled 2 Chiaberge, Pascal Audigane, BRGM 61 with Fluid Phase Flow Dedong Li, Christof Beyer, Sebastian Bauer, 334. A Simulation Study of Simultaneous Acid Gas
University of Kiel EOR and CO2 Storage at Apache’s Zama F Pool Dayanand Saini, Charles Gorecki, Damion 327. Modeling of Carbon Dioxide Plume Migration Knudsen, James Sorensen, Edward Steadman, for Saline Aquifer in Northern Taiwan EERC Neng Chuan Tien, Chi Wen Liao, Lun Tao Tong, Industrial Technology Research Institute 335. Systematic Benchmark Development for Geological CO Storage 328. Investigating Stress Path Hysteresis in a CO 2 2 Ashok Singh, Joshua Taron, Wenqiung Wang, Injection Scenario using Coupled Uwe-Jens Görake, Helmholtz Centre for Geomechanical-Fluid Flow Modelling Environmental Research - UFZ; Norbert Böttcher, Tom Lynch, Doug Angus, Quentin Fisher, Piroska University of Technology Dresden; Olaf Kolditz, Lorinczi, University of Leeds Helmholtz Centre for Environmental Research -
329. Simulating CO2 Injection and Storage with UFZ; University of Technology Dresden Limited Site Data: Utility of a Variably Complex 336. Optimizing CO Storage in a Deep Saline Aquifer Modeling Approach 2 with the Capacitance-Resistive Model Walt McNab, Jeff Wagoner, Lawrence Livermore Qing Tao, Steven Bryant, The University of Texas at National Laboratory; John Rupp, Kevin Ellet, Austin Indiana Geological Survey 337. Modeling of Temperature Effects in CO Injection 330. Development of a Basin-Scale Model for CO 2 2 Wells Sequestration in the Basal Sandstone Arron Alie Tchouka Singhe, Guenter Pusch, Reservoir of the Illinois Basin— Issues, Leonhard Ganzer, Clausthal University of Approach and Preliminary Results Technology; Jann Rune Ursin, University of Edward Menhert, James Damico, Scott Frailey, Stavanger; Jan Henninges, German Research Hannes Leetaru, Roland Okwen, Illinois State Center for Geosciences Geological Survey; Yu-Feng Lin, Illinois State Water Survey; Nathaniel Adams, Brynne Storsved, Albert 338. Best Practices for Reservoir Modeling of
Valocchi, University of Illinois Geologic CO2 Storage Gary Teletzke, Pengbo Lu, ExxonMobil Upstream 331. Whole-System Process Modelling of CO Storage 2 Research and its Application to The In Salah CO2 Storage
Site, Algeria 339. Mechanistic Modelling of CO2 Storage in
Richard Metcalfe, Alex Bond, Philip Maul, Alan Weyburn CO2-EOR Field - Numerical History Paulley, Quintessa Limited Match and Prediction Mafiz Uddin, Alireza Jafari, Ernie Perkins, Alberta Innovates - Technology Futures
www.ghgt.info • [email protected] 340. Influence of Capillary Pressure and CO2 Injection 348. Multifunctional Sensor for Monitoring of CO2 Rate as well as Heterogeneous and Anisotropic Underground Storage by Comprehensive Permeability on Transport and Geologic Storage and Spatially Resolved Measuring of Gas
Efficiency of CO2 in Saline Aquifer Concentrations, Temperature and Structural Dayong Wang, Mingloing Zhao, Yongchen Song, Changes School of Energy and Power Engineering Matthias Bartholmai, Patrick Neumann, BAM Federal Institute for Materials Research and 341. Numerical Studies on Field Scale Aquifer Storage Testing of CO2 Containing N2 Ning Wei, Xiaochun Li, Yan Wang, Ying Wang, 349. The Laboratory Simulation and Field Verification
Weizhong Kong, Chinese Academy of Sciences of Seasonal Soil-Respired CO2 Flux at a Proposed CCS Project Site 342. Fully Coupled Well Models for Fluid Injection James Brydie, Robert Faught, Mark Olson, Andrew and Production Underwood, Bonnie Drozdowski, Alberta Mark White, Diana Bacon, Signe White, Fred 62 Innovates - Technology Futures Zhang, Pacific Northwest National Laboratory 350. Applicability of Long-Range Seismic Noise 343. Implementations of a Flexible Framework for Correlation for CO Geological Storage Managing Geologic Sequestration Modeling 2 Monitoring Projects Mickael, Delatre, Jean-Charles Manceau, BRGM Singe White, Luke Gosink, Chadrika Sivaramakrishnan, Gary Black, Sumit Purohit, 351. Application of an Unsupervised Methodology
Diana Bacon, Guang Lin, Ian Gorton, Alain for the Indirect Detection of CO2 Leakages Bonneville, Pacific Northwest National Laboratory Around the Laacher See Lake in Germany Using Remote Sensing Data 344. High-Performance Supercomputing as a Risk Rajesh Givinda, Anna Korre, Sevket Durucan, Evaluation Tool for Geological Carbon Dioxide Imperial College London Storage Hajime Yamamoto, Shinichi Nanai, Taisei 352. Monitoring Underground Migration of
Corporation; Keni Zhang, Beijing Normal Sequestered CO2 using Self-Potential Methods University; Pascal Audigane, Christophe Tsuneo Ishido, Toshiyuki Tosha, Yuji Nishi, Chiaberge, BRGM; Ryusei Ogata, NEC Corporation; Geological Survey of Japan, AIST; John Pritchett, Noriaki Nishikawa, Yuichi Hirokawa, Satoru Science Applications International Corporation; Shingo, Japan Agency for Marine-Earth Science Shigetaka Naknishi, J-Power and Technology; Kengo Nakjima, The University of 353. Real Time Imaging of CO Storage Zone by Very Tokyo 2 Accurate-Stable-Long-Term Seismic Source 345. Study on Geomechanical Stability of the Junzo Kasahara, Ryoya Ituka, Naoyuki Fujii,
Aquifer-Caprock System During CO2 Shizoka University; Shinji Ito, Tomohiro Fujiwara, Sequestration by Coupled Hydromechanical NTT-data-CCS Co. Ltd; Yoko Hasada, Daiwa Modelling Exploration and Consulting Co. Ltd; Kayoko Shuichi Yamamoto, Satoru Miyoshi, Kenichiro Tsuruga, Tokyo University; Koshunm Yamaoka, Suzuki,Obayashi Corporation Nagoya University; Kiyoshi Ito, Kinya Nishigami, DPRE, Kyoto University Monitoring Technologies and Techniques 354. Experimental and Numerical Study of Residual 346. Methodology for Evaluating Technical Risks and CO Trapping in Porous Sandstone Monitoring Methods Selection for 2 Keigo Kitamura, RITE and Kyushu University; CO Geological Storage in Oltenia Region 2 Tetsuya Kogure, Osamu Nishizawa, Ziqiu Xue, RITE Sorin Anghel, Constantin Sava, Alexandra Dudu, GeoEcoMar - National Institute of Marine Geology 355. The Synergistic Pursuit of Advances in MMV
and Geoecology Technologies for CO2–Enhanced Recovery and CO Storage 347. Experiences with a Permanently Installed 2 Vello Kuuskraa, Tyler Van Leeuwen, Advanced Seismic Monitoring Array at the CO Storage Site 2 Resources International, Inc.; Phil Dipietro, at Ketzin (Germany) John Litynski, U.S. DOE/NETL Rob Arts, Mei Zhang Arie Verdel, Sjef Meekes, Vincent Vandeweijer, TNO; Dario Santonico; R.P Noorlandt, Delft Technical University and Deltares; B.F Paap, TNO and Deltares 356. Experimental Laboratory Study on the Acoustic 364. Metagenomics in CO2 Monitoring Response of Sandstones During Injection of Anne Gunn Rike, NGI; Othilde Elise Håvelsrud,
Supercritical CO2 on CRC2 sample from Otway NGI and University of Oslo; Thomas H.A. Basin Australia Haverkamp, Kjetill S Jocobsen, CEES and Maxim Lebedev, Vassili Mikhaltsevitch, CO2CRC/ University of Oslo; Tom Kristensen, MERG and Curtin University; Olga Bilenko, Curtin University; University of Oslo Tess Dance, CO2CRC/CSIRO; Marina Pervukhina, 365. Applications of Non-Linear Elastic Wavefield CSIRO; Boris Gurevich, CO2CRC/Curtin University/ Inversion for 4D Seismic Data to Characterize the CSIRO Injected Carbon Dioxide 357. U.S. Department of Energy Efforts to Advance Akio Sakai, Japan Petroleum Exploration Co.,Ltd. Remote Sensing Technologies for Monitoring 366. An Integrative Hierarchic Monitoring Approach Geologic Storage Operations for Detecting and Characterizing CO2 Releases John Litynski, U.S. DOE NETL; Ram Srivastava, Uta Sauer, Claudia Schütze, Peter Dietrich, Derek Vikara, Malcolm Webster, Keylogic, Inc 63 Helmholtz Centre for Environmental Research 358. Application of Improved Injection Well (UFZ); Carsten Leven, University of Tübingen; Temperature Model to Cranfield Measurements Stefan Schlömer Zhiyuan Luo, Steven Bryant, The University of 367. CO Rock Physics: Laboratory Measurements of Texas at Austin; Tip Meckel, Bureau of Economic 2 the Seismic Properties of Weyburn Project Geology, The University of Texas at Austin Carbonate Rocks 359. Feasibility Study for Using 2D Surface Seismic Douglas Schmitt, Gauier Njiekak, Helen Yam, Surveys as a Monitoring Tool for Large Scale Randy Kofman, Mizan Chowdhury, University of
CO2 Storage in the Gippsland Basin, Victoria, Alberta Australia 368. Ground-Based Remote Sensing with Open-Path Norzita Mat Fiah, L. Pekot, F. Poupeau, Aline Fourier Transform Infrared (OP-FTIR) Gendrin, Schlumberger Carbon Services; Andrew Spectrometry for Large-Scale Monitoring of Garnett, Carbon Geostore Management Pty Ltd Greenhouse Gases 360. Development of a Permanent OBC System for Claudia Schütze, Steffen Lau, Nils Reiche, Uta CCS Monitoring in Shallow Marine Environments Sauer, Helkp Borsdorf, Peter Dietrich, Helmholtz Akihisa Takashi, Naoshi Aoki, JGI, Inc.; Ziqiu Xue, Centre for Environmental Research (UFZ) RITE 369. Continuous Gravity Monitoring for CO2 361. Monitoring of CCS Areas Using MUAVs Geo-Sequestration Patrick Neumann, M. Bartholmai, BAM Federal Mituhiko Sugihara, Kazunari Nawa, Yuji Nishi, Institute for Materials Research and Testing; Sahar Tsuneo Ishido, Nobukazu Soma, AIST/GSJ Asadi, Victor Hernandez Bennetts, Achim J. 370. Reservoir Fluid Monitoring in Carbon Dioxide Lilienthal, Center for Applied Autonomous Sensor Sequestration at Cranfield Systems Sandeep Verma, Charles Oakes, T.S. Ramakrishnan,
362. CSEM Sensitivity Study for Sleipner CO2- Schlumberger Doll Research, Seyyed Hosseini, Sue Injection Reservoir Monitoring Hovorka, GCCC, BEG, University of Texas Joonsang Park, Manzar Fawad, Inge Viken, Eyvind 371. Geochemical Study on CO -Rich Waters of Aker, Tore Ingvald Bjørnarå, Norwegian 2 Daepyeong Area, Korea: Monitoring Implication Geotechnical Institute for CO2 Geologic Storage 363. A Sensitivity Study of Pressure Monitoring to Byoung-Woo Yum, Gi-Tak, Chae, Minki Jo, Jeong-
Detect Fluid Leakage from Geological CO2 Chan Kim, KIGAM Storage Site 372. Correlation Analysis for Online CO Leakage Yong-Chan Park, Dae-Gee Huh, Chan-Hee Park, 2 Monitoring in Geological Sequestration Korea Institute of Geoscience & Mineral Resources Zaoxiao Zhang, Denglong Ma, Jianqiang Deng, Xi’an Jiaotong University
www.ghgt.info • [email protected] Remediation and Contingency Planning 381. Offshore CCS in the Northern Gulf of Mexico and the Significance of Regional Structural 373. From Geochemical Baseline Studies to Compartmentalization Characterization and Remediation of Gas Leaks: Timothy Meckel, Ramon Trevino, David Carr, Experiences and Case Studies of the French Andrew Nicholson, Kersten Wallace, Gulf Coast Institute for Risk Management (INERIS) Carbon Center, Texas Bureau of Economic Geology Stéphane Lafortune, Zbigniew Pokryszka, Gaëtan
Bentivenga, Régis Farret, INERIS 382. Evaluation of CO2 Storage Potential, Injectivity and Uncertainly by the Numerical Analysis on Reservoir Engineering Feasibility Study Sites 374. Mass Transfer Coefficient for Carbon Dioxide Seiichi Ikeda, Masao Ohoka, Satoshi Tomimori, Dissolution into Brine Shouchi Hishida, Mariko Seguchi, Jyunya Christopher Blyton, Steven Bryant, The University Takeshima, Hiroyuki Azuma, OYO Corporation; of Texas at Austin Masato Takagi, Kazuo Koide, Jyunich Shimizu, RITE 64 375. Influence of Heterogeneities and Upscaling on 383. Dehydration of Gypsum under Dry CO2 Injection CO2 Storage Prediction at Large Scale in Deep Jacques Pironon, Jean Dubessy, Jérôme Saline Aquifer Sterpenich, Pascal Robert, Khadija Andjar, Aurélien Sarah Bouquet, Dominique Bruel, Chantal De Randi,CNRS-Université de Lorraine; Marc Fouquet, Mines ParisTech Parmentier, Arnaud Lassin, BRGM; Stéphane Renard, CNRS-Université de Lorraine and IFPEN 376. Does Injected CO2 Affect Reservoir System Integrity? A Comprehensive Experimental 384. Global Optimization of Injection Well Placement Approach Toward Higher Safety of CO2 Geological Storage Sebastian Fischer, Helmholtz Centre Potsdam, Takashi Goda, Kozo Sato, The University of Tokyo GFZ German Research Centre for Geosciences and 385. Improvement of CO Geological Storage Berlin Institute of Technology; Axel Liebscher, 2 Efficiency by Injection and Production Well Kornelia Zemke, Marco De Lucia, Helmholtz Design Centre Potsdam, GFZ German Research Centre for Key Tanaka, Javier Vilcáez, Kozo Sato, The Geosciences University of Tokyo 377. Core Analyses as Tools for Modeling Saline 386. CO Injection in a Saline Formation: Pre-Injection Aquifers 2 Reservoir Modeling and Uncertainty Study for Hiroshi Kameya, Hiroyuki Azuma, Shinichi Illinois Basin-Decatur Project Hiramatsu, Oyo Corporation; Chi-Wen Yu, Ozgur Senel, Schlumberger Carbon Services; Sinotech Engineering Consultants, Inc.; Chung- Nikita Chugunov, Schlumberger-Doll Research Hui Chiao, Taiwan Power Company / National Taiwan University; Ming-Wei Yang, Taiwan Power 387. Effective Storage Capacity Study in a Deep Company Saline Aquifer within a Young Sedimentary Basin Chung-Hui Chiao, National Taiwan University and 378. Effect of Sub-Core Scale Heterogeneity on Taiwan Power Company; Kuo Shih Shao, Yi-Rui Lee, Relative Permeability Curves of Porous Chi-Wen Yu, Sinotech Engineering Sandstone in Water-Supercritical CO System 2 Consultants, Inc.; Lian-Tong Hwang, Taiwan Power Tetsuya Kogure, Osamu Nishizawa, Shun Company; Chai-Yu Lu, National Taiwan University Chiyonobu, Yukihiro Yazaki, Seiji Shibatani, Ziqiu Xue, RITE 388. Optimization of Injection/Extraction Rates for Surface Dissolution Process 379. Ground Heaving and Leakage Analysis Qing Tao, Steven Bryant, The University of Texas at for Sequestration of CO in Geological Media 2 Austin Considering Fractures in Caprock Jaewon Lee, Ki-Bok, Seoul National University; 389. Development of Carbon Dioxide Microbubble
Jonny Rutqvist, Lawrence Berkeley National Sequestration into Saline Aquifer and CO2-EOR Laboratory Reservoirs Ziqiu Xue, RITE; Shinya Tsuji, Toshifumi Matsuoka, 380. Feasibility of the Combination of CO Storage 2 Kyoto University; Hiromichi Kameyama, Susumu and Saline Water Development in Sedimentary Nishio, Technology Research Institute, Tokyo Gas Basins of China Co., Ltd Qi Li, Guizhen Liu, Bing Bai, Xiaochun Li, Institute of Rock and Soil Mechanics, Chinese Academy of Sciences; Xuehao Liu, Miao Jing, The Graduate University of Chinese Academy of Sciences 390. Simulation Study of CO2 Micro-Bubble 398. Technical Work Processes for Qualifying
Generation though Porous Media Geological CO2 Storage Hirotatsu Yamabe, Toshifumi Matsuoka, Kyoto Gøril Tjetland, Espen Erichsen, Ross Offshore; University; Kenichi Nakaoka, INPEX Cooperation; Hallvard Høydalsvik, Gassnova SF; Fredrik Gillebo, Ziqiu Xue, RITE; Hiromichi Kameyama, Susumu Deloitte Nishio, Tokyo Gas Co., Ltd 399. Containment Risk Management for CO2 Storage Risk Assessment and Management in the Goldeneye Depleted Gas Field, UK North Sea 391. ULTimateCO : A FP7 European Project Dedicated 2 Owain Tucker, Martin Holley, Shell Projects and to the Understanding of the Long Term Fate of Technology Geologically Stored CO2
Pascal Audigane, BRGM; Steven Brown, CO2SENSE; 400. Experimental Data from CO2 Releases from a Alain Dimier, EIFER; Peter Frykman, GEUS; Fabrizio Saturated Liquid Reservoir using High Speed Gherardi, IGG-CNR; Yan Le Gallo, GEOGreen; Camera and Laser Illumination 65 Nicolas Maurand, IFPEN; Anne Marie Muntendam, Knut Vaagsaether, Sindre Toesse, Joachim TNO; Heie Rüters, BGR; Jonathan Pearce, BGS Chris Lundberg, Andre Gaathaug, Dag Bjerketvedt, Spiers, University of Utrecht; Thierry Yalamas, Telemark University College; Sandra Nilsen, Statoil PHI- MECA Engineering ASA 392. Particle Image Velocimetry for Quantificaton of 401. Integrated Carbon Risk Assessment (ICARAS)
High Pressure CO2 Release Ton Wildenborg, Jens Wollenweber, Danijela Arjen de Jong, Mark Spruijt, TNO Sijacic, Manuel Nepveu, Ingrid Raben, TNO; Daniel Busby, Dan Bossie Codreanu, 393. Small Scale Jet-Release Studies of High Pressure IFP Energies Nouvelles; Dag Wessel-Berg, Alve and Supercritical CO for Release and Dispersion 2 Arne Grimstad, Ane Lothe, SINTEF, Norway Model Validation Corina Hulsbosch, Mark Spruijt, Arjen de Jong, 402. Features Events and Processes (FEPs) and
Jacco Moorhoff, Henny Veerman, John Scenario Analysis in the Field of CO2 Storage Zevenbergen; TNO Kohei Yamaguchi, Koichi Takizawa, Hironobu Komaki, Ziqiu Xue, RITE; Richard Metcalfe, 394. An Experimental Investigation of Liquid CO 2 Quintessa Limited; Masaaki Yamaguchi, Quintessa Release through a Capillary Tube Japan; Hiroyasu Kato, Shinzo Ueta, Mitsubishi Jooil Kim, Daejun Chang, Sang Heon Han, KAIST Materials Corporation 395. A Tool for Integrating and Communicating 403. Comparison of CO and Natural Gas Recovery Performance-Relevant Information in CO 2 2 from a Storage Site Storage Projects: Description and Application to Yueng Yip, Antonio Baclig, Ernst van Niero, Mark In Salah Henle, Shipeng Fu, C12 Energy Richard Metcalfe, Alan Paulley, Paul Suckling, Claire Watson, Quintessa Limited Site Characterisation and Selection 396. Risk Assessment and Management Associated 404. Evaluating Seal Quality for Potential Storage Site with CCS using Fault Tree Analysis in the North Sea Behdeen Oraee-Mirzamani, Tim Cockerill, Zen Matthiue Angeli, Roy Gabrielsen, Jan Inge Faleide, Makuch, Imperial College London University of Oslo
397. Numerical Study on Flow Behaviour of CO2 405. Integrated Approach to CO2 Storage Assessment Around Injected Well for Risk Assessment of in the Offshore South Perth Basin, Australia Carbon Capture and Storage Irina Borissova, John Kennard, Danielle Robertson, Yasuhide Sakamoto, Atsuko Tanaka, Norio Megan Lech, Liuqi Wang, Chris Lewis, Chris Tenma Takeshi Komai, National Institute of Southby, Geoscience Australia Advanced Industrial Science (AIST) 406. New Certification Framework for CO2 Storage Sites Mike Carpenter, Jørg Aarnes, Todd Flach, Elisabeth Rose, DNV
www.ghgt.info • [email protected] 407. Monitoring Approaches for Detecting and 415. Planning a Pilot Injection Test for a 3000m Deep
Evaluating CO2 and Formation Water Leakages Saline Aquifer in a Preferred Carbon into Near-Surface Aquifers Sequestration Site Frank Dethlefsen, Ralf Kober, Dirk Schafer, Andreas Chi-Wen Yu, Wen-Chung Ko, Sinotech Engineering Dahmnke, Said Attia al Hagrey, Jochen Grossman, Consultants, Inc; Chung-Hui Chiao, Lian-Tong Matthias Beyerb,University of Kiel Hwang, Ming-Wei Yang, Taiwan Power Company 408. Development of Key Performance Indicators for 416. Pre-Competitive Data Acquisition Program for
CO2 Storage Operability and Efficiency CO2 Storage in Australia Assessment: Application to the Southern North Robert Langford, Irina Borissova, Alfredo Chirinos, Sea Rotliegend Group Paul Henson, Andrew Heap, Geoscience Australia Anna Korre, Sevket Durucan, Ji-Qian Shi, Amer 417. Reservoir Evaluation for the T1 Member of the Syed, Rajesh Govindan, Imperial College London; Takinoue Formation at Tomakomai Candidate Sarah Hannis, John Williams, Gary Kirby, Martyn Site for CCS Demonstration Project in Japan 66 Quinn, British Geological Survey Jun Mikami, Daisuke Ito, Mitsuru Kamon, Arata
409. To a Dynamic Update of the Sleipner CO2 Katoh, Sinjiro Kuroki, Kohei Akaku, Tatsuhiko Storage Geological Model Matsuura, Japan Petroleum Exploration Co. Alexandre Fornel, Audrey Estublier, IFP Energies Ltd; Takuya Maeda, Takao Inamori, JGI, Inc; Nouvelles Yoshinori Yamanouchi, Japan CCS Co. Ltd. 410. Preliminary Containment Evaluation in the Surat 418. Progress Report of AIST’s Research Programs for
and Bowen Basins, Queensland, Australia CO2 Geological Storage Sebastian Gonzalez, Suzanne Hurter, Shinsuke Nakao, Toshiyuki Tosha, Geological Schlumberger Carbon Services; Andrew Garnett, Survey of Japan, AIST Formerly CEO & Project Director ZeroGen 419. Site Characterisation for CO2 Storage: a Workflow
411. Cross-International Boundary Effects of CO2 Aligned with the EU Storage Directive Injection Filip Neele, Manuel Nepveu, Cor Hoftsee, Jens Sarah Hannis, Stephanie Bricker, Aaron Goater, Wolleneber; TNO; Florence Delprat-Jannaud, Sam Holloway, Jeremy Rushton, Gareth Williams, Olivier Vincke, IFPEN; Valentina Volpi, OGS; British Geological Survey Ane Lothe, SINTEF; Suzanne Brunsting, ECN; Jonathan Pearce, BGS 412. Reservoir Evaluation for the Moebetsu
Formation at Tomakomai Candidate Site for CCS 420. Evaluation of CO2 Storage Potential for Demonstration Project in Japan Feasibility Study Sites on Innovative Zero- Daisuke Ito, Jun Mikami, Mitsuru Kamon, Koji Emission Coal Gasification Power Generation Kawada, Mizue Nishimura, Satoru Tomita, Masao Ohoka, Tadashi Araya, Masaru Nakamura, Kohei Akaku, Tatsuhiko Matsuura, Japan Syoichi Nishiyama, Chisato Konishi, Mio Petroleum Exploration Co., Ltd; Takao Inamori, JGI, Shimoyama, OYO Corporation; Kazuo Koide, Inc.; Yoshiniri Yamanouchi, Japan CCS Co., Ltd Jyunich Shimizu, Chikara Iwamoto, RITE
413. Refinement Of The Weyburn-Midale Geological 421. Experimental Investigations in CO2 and Hydrogeological Model: Develop a Better Sequestration and Shale Caprock Integrity Understanding of the Heterogeneity Present to Abiola Olabode, Mileva Radonjic, Craft & Hawkins
Determine Reservoir Response to Injected CO2 Louisiana State University and Subsequent CO Movement 2 422. Challenges with Qualification of Storage Sites Gavin Jensen, Saskatchewan Geological Survey; for CCS in Deep Aquifers Exemplified by the Erik Nickel, Petroleum Technology Research Mongstad Storage Site Study, Norway Centre; Ben Rostron, University of Alberta Kari-Lise Rørvik, Lise Horntvedt, Espen Erichsen, 414. Seismic Reflection Survey to Allocate 3000m Trude Ravn, Per Ola Andfossen Hallvard Deep Target Formation in a Preferred Carbon Høydalsvik, Eirik Harding Hansen, Gassnova SF Sequestration Site 423. Petrophysical Properties and Capacity of Wen-Chung Ko, Chi-Wen Yu, Sinotech Engineering Prospective for CO Geological Storage Baltic Consultants, Inc; Chung-Hui Chiao, Lian-Tong 2 Offshore and Onshore Structures Hwang, Ming-Wei Yang, Taiwan Power Company Kazbulat Shogenov, Alla Shogenova, Tallinn University of Technology; Vizika-Kavvadias Olga, IFP Energies Nouvelles 424. Core Scale and Pore Scale Characterization of 432. CO2 Sequestration Potential of Unmineable Coal;
Liujiagou Sandstone, Ordos Basin, China for CO2 State of Knowledge
Aquifer Storage Margo Corum, Kevin Jones, Peter Warwick, U.S. Yan Wang, Ning We, Ying Wang, Xiaochun Li, Geological Survey Chinese Academy of Sciences; Kathy Bruner, 433. Uncertainty in Regional-Scale Evaluation of Dustin Crandall, URS Corporation; Igor Haljasmaa, CO Geologic Storage Resources-Comparison of Grant Bromhal, U. S. DOE, NETL 2 the Illinois Basin (USA) and the Ordos Basin 425. Portfolio Analysis of Carbon Sequestration (China) Technologies and Barriers to Adoption: General Kevin Ellet, Cristian Medina, John Rupp, Indiana Methodology and Application to Geological Geological Survey, Indiana University; Guochang Storage Wang, Timothy Carr, West Virginia University Jillian Young-Lorenz, David Lumley, University of 434. Ranking of Indonesia Sedimentary Basins and Western Australia Storage Capacity Estimates for CO Geological 2 67 Storage Capacities Storage Utomo Pratama Iskander, Usman, Sudaraman 426. CO Storage Potential in the Nordic Region 2 Sofyan, R&D Centre for Oil and Gas Technology Karen L. Anthonsen, Geological Survey of ‘LEMIGAS’ Denmark and Greenland; Per Aagaard, University
of Oslo; Per E.S. Bergmo, SINTEF Petroleum 435. Modelling of CO2 Injection in Fluvial Research; Mikael Erlström, Geological Survey of Sedimentary Heterogeneous Reservoirs to Sweden; Sigudur R. Gidlason, University of Iceland; Assess the Impact of Geological Heterogeneities
Ane Lothe, SINTEF Petroleum Research on CO2 Storage Capacity and Performance Benoit Issautier, Pascal Audigane, BRGM; Simon 427. CO Geological Storage in the Province of 2 Fillacier, Yann Le Gallo, Geogreen Québec, Canada – Basin-Scale Prospectivity
Assessment and Capacity Evaluation 436. Potential of Sub-Seafloor CO2 Geological Storage Karine Bédard, Michel Malo, Félix-Antoine in Northern South China Sea and its Importance Comeau, Institut National de la Recherche for CCS Development in South China Scientifique Pengchun Li, Di Zhou, Zhongxiang Zhao, Cuimei Zhang, Yufan Zhang, Chinese Academy of Sciences 428. The Occurrence of Faults in the Bunter Sandstone Formation of the UK Sector of the 437. The Ordos Basin: a Premier Basin for Integrating
Southern North Sea and the Potential Impact on Geological CO2 Storage with Enhanced Oil Storage Capacity Recovery Projects in China Michelle Bentham, BGS; Andrew Green, Dennis Tingting luo, Yajun Wang, Lifa Zhou, Shaanxi Gammer, ETI Provincial Institute of Energy Resources and Chemical Engineering; Ronald Surdam, 429. Towards International Guidelines for CO 2 Zhunsheng Jiao, University of Wyoming Carbon Storage Resource Estimation Management Institute Sean Brennan, Peter Warwick,USGS; Rick Causebrook, Geoscience Australia; Peter Gerling, 438. Storage Capacity Evaluation for Development of
BGR; Wolf Heidug, Juho Lipponen, Sean McCoy, CO2 Infrastructure in the West Mediterranean IEA; Sam Holloway, BGS; Henk Pagnier, TNO; Don Roberto Martínez, Isabel Suárez, IGME; Júlio White, GSC Carneiro, Fátima Cardoso, University of Évora; Tiago Cunha, LNEG; Yassine Zarhoule,University 430. CO Storage Capacity Assessment in the Deep 2 Mohammed Premiere; Yves-Michel Le-Nindre, Saline Aquifers of Southern Israel BRGM Ran Calvo, Zohar Gvirtzman, Geological Survey of Israel
431. CO2 Storage Capacity of Campos Basin’s Oil Fields, Brazil Gabriela Camboim Rockett, Joao Marcello Medina Ketzer, PUCRS / CEPAC; Ramirez Ramirez, Machteld van den Broek, Utrecht University / Copernicus Institute
www.ghgt.info • [email protected] 439. CO2 Storage Resource Potential of the Cambro- 448. Probabilistic Aggregation of Individual Ordovician Saline System in the Western Interior Assessment Units in the U.S. Geological Survey
of North America National CO2 Sequestration Assessment Wesley Peck, Damion Knudsen, Chad Crotty, Madalyn Blondes, Ricardo Olea, Lawrence Charles Gorecki, James Sorensen, EERC; Stefan Drew, Peter Warwick, U.S. Geological Survey, Bachu, Tyler Hauck, Stephen Talman, Jesse Energy Resources Science Center; John Peterson, Anatoly Melink, Alberta Innovates – Schuenemeyer, Southwest Statistical Consulting Technology Futures 449. Estimation of CO2 Storage Capacity in Porous
440. Long-Term Behaviour of CO2 Stored in a Large Media by using X-ray Micro-CT Scale in the Utsira Formation, North Sea, Yu Liu, Yongchen Song, Hongfei Zheng, Zijian Norwegian Continental Shelf Shen, Bo Su, Dalian University of Technology Van Pham, Inge Tappel, Eva Hallandm Ine Trapping Mechanisms Gjeldvik, Tor Eidvin, Rita Rød, Christian Magnus,
68 Wenche Johansen, Fridjof Riis, Norwegian 450. CO2 Leakage Prevention by Introducing Petroleum Directorate Engineered Nanoparticles to the In-Situ Brine Behdad Aminzadeh, Doo Chung, David DiCarlo, 441. Sub-Seafloor Carbon Dioxide Storage Potential Steven Bryant, Chun Huh, The University of Texas on the Juan de Fuca Plate, Western North at Austin America
Jerry Fairley, Center for Advanced Energy Studies 451. Potential Triassic and Jurassic CO2 Storage and University of Idaho; Robert Podgorney, Center Reservoirs in the Skagerrak-Kattegat Area for Advanced Energy Studies and Idaho National Irfan Baig, Per Aagaard, Caroline Sassier, Jan Inge Laboratory Faleide, Jens Jahren, Roy H. Gabrielsen, University of Oslo; Manzar Fawad, Norwegian Geotechnical 442. Characterizing Buoyant Plume Migration Institute; Lars Henrik Nielsen, Lars Kristensen, Through Domains with Fine-Scale Heterogeneity Geological Survey of Denmark and Greenland; Per Priya Ravi Ganesh, Steven Bryant, Timothy Meckel, E.S Bergmo, SINTEF Petroleum University of Texas at Austin 452. CO Storage from Blast Furnace in the Triassic 443. The Impact of Mineralogy and Oil:Water Ratios 2 Sandstones of Lorraine, (Eastern Paris Basin, on Estimates of CO Storage at the IEA Weyburn- 2 France): An Experimental Study Midale CO Monitoring and Storage Project 2 Clément Belgodere, Université de Lorraine, CNRS, Ian Hutcheon, Maurice Shevalier, Kyle Durocher, G2R Laboratory / CREGU; Jérôme Sterpenich, Bernhard Meyer, University of Calgary; John Bloch, Jacques Pironon, Université de Lorraine, CNRS, Casa Gausalupita G2R laboratory; Jean-Pierre Birat, ArcelorMittal 444. Numerical Investigation of the Storage Efficiency 453. Experimental and Numerical Studies of Density- Factor for CO Geological Sequestration in Saline 2 Driven Natural Convection in Saturated Porous Formations Media with Application to CO2 Geological Yang Wang, Keni Zhang, Beijing Normal University Storage 445. U.S. Geological Survey Geologic Carbon Dioxide Sylvie Chevalier, Tilty Farhana Faisel, Mohamed Storage Resource Assessment of the United Sassi, Masdar Institute of Science and Technology States 454. 2-D Reactive Transport Modeling of the Fate of Peter D. Warwick, Madalyn S. Blondes, Sean CO Injected into a Saline Aquifer in the T. Brennan, Margo D. Corum, Matthew Merril, U.S. 2 Wabamum Lake Area (Alberta, Canada) Geological Survey Chantsalmaa Dalkhaa, Maurice Shevalier,
446. Quantification of Practical and Matched CO2 Bernhard Mayer, Michael Nightingale, University Storage Capacity for Insufficiently Known of Calgary Reservoirs 455. Wettability Behavior of CO at Sequestration Kris Welkenhuysen, Kris Piessens, Geological 2 Conditions Survey of Belgium - Royal Belgian Institute of Raheleh Farokhpoor, Ole Torsæter, Norwegian Natural Sciences University of Science and Technology; Bård J.A. 447. The First North American Carbon Storage Atlas Bjørkvik; Erik Lindeberg, SINTEF Petroleum Frank Mourits, Natural Resources Canada; Research Leonardo Beltran, Secretariat of Energy, Mexico; 456. Trapping Effects of Small Scale Sedimentary Moises Davila, Federal Commission of Electricity, Heterogeneities Mexico; Robert Wright, U.S. Department of Energy, Peter Frykman, Carsten Nielsen, Niels Bech, GEUS 457. Examination of Methods to Measure Capillary 465. Containment Impact of Calcite Pathways in the
Threshold Pressures of Pelitic Rock Samples Primary Caprock of CO2 Storage in a Depleted Kei Kawaura, Kohei Akaku, Masanori Nakano, North Sea Gas Field Takashi Takahashi, Shinichi Kiriakehata, JAPEX Jeroen Snippe, Shell Projects and Technology; Technical Division Research Center, Japan Lingli Wei, Shell China Limited; Owain Tucker, Shell Petroleum Exploration Co. Ltd.; Daisuke Ito, Japan Projects and Technology Petroleum Exploration Co., Ltd; Hitoshi Suzuki, 466. Carbonate Reaction Experiments at Carbonated Japan CCS Co, Ltd. and Bicarbonated Springs as a Natural Analogue
458. Ex-Situ Dissolution of CO2 for Carbon Field of CO2 Geological Sequestration Sequestration Masao Sorai, Munetake Sasaki, National Institute Yuri Leonenko, University of Waterloo of Advanced Industrial Science and Technology 459. Clay Hydration / Dehydration in Dry to Water- 467. Gas Injection in a Water Saturated Porous Saturated Supercritical CO : Implications for Medium: Effect of Capillarity, Buoyancy, and 2 69 Caprock Integrity Viscosity Ratio John Loring, Todd Schaef, Chris Thompson, Quinn Tetsuya Suekane, Katuhiro Okada, University of Miller, Jianzhi Hu, David Hoyt, Paul Martin, Eugene Tokushima Ilton, Andrew Felmy, Kevin Rosso, Pacific 468. Observation of Buoyant Plumes in Northwest National Laboratory Countercurrent Displacement: Influence of Local 460. Experimentally Measurements of Threshold Capillary Trapping –a Bench Scale Experiment Pressure for Modeling Saline Aquifers in Japan Yuhao Sun, Angelica Hernandes, Steven Bryant, Masaki Ono, Hiroshi Kameya, Kohichi Hosoda, The University of Texas at Austin Yotsuo Kamidozono, Hiroyuki Azuma, Oyo 469. Simulation Study of Density-Driven Natural Corporation Convection Mechanism in Isotropic and
461. Core Scale Modelling of CO2 Flowing: Identifying Anisotropic Brine Aquifers using a Black Oil Key Parameters and Experiment Fitting Reservoir Simulator Desiree Petrilli, Pascal Audigane, BRGM; Ruina Amir Taheri, Ole Torsæter, NTNU; Dag Wessel-Berg, Xu, Luo Shu, Tsinghua University Sintef Petroleum Research
462. Precipitation Kinetics of Sulfate-Bearing 470. Geochemical Effects of Storing CO2 in the Basal
Minerals Under Environmental Condition of CO2 Aquifer that Underlies the Prairie Region in Geological Storage Canada Peter (Pedro) Rendel, Jiwchar Ganor, Ben-Gurion Stephan Talman, Ernie Perkins, Stephan Bachu, University of the Negev; Domenik Wolff-Boenisch, Alberta Innovates Technology Futures; Andrew University of Iceland; Ittai Gavrieli, Geological Wigston, David Ryan, CanmetENERGY Survey of Israel 471. Mineral Migration and Regeneration Reactions
463. Experimental and Numerical Studies of CO2 in the Two Phase Flow Experiment Injection into Saturated Porous Media: Capillary Cheng-Hsien Tsai, Chih-Hau Yung, Sinotech to Viscous to Fracture Fingering Phenomenon Engineering Consultants, Inc; Yuh-Ruey Wang, Mohamed Sassi, Amima Islam, Sylvie Chevalier, National Taipei University of Technology, Masdar Institute of Science and Technology Chung-Hu Chiao, Taiwan Power Company
464. Density Measurement of CO2 + Deionized Water 472. How Rock Mechanical Properties Affect Fault in Warm Formations by a Magnetic Suspension Permeability in Neogene Mudstone? Balance Shin-Ichi Uehara, Toho University; Miki Takahashi, Yong Shen, Yi Zhang, Yongchen Song, Weiwei Geological Survey of Japan, AIST Jian, Yangchun Zhan, Cheng Hu, Dalian University of Technology
www.ghgt.info • [email protected] 473. Mineralogical Alterations During Laboratory- 481. ULTimateCO2 Project: Field Experiment in an Scale Carbon Sequestration Experiments for the Underground Rock Laboratory to Study the Well
Illinois Basin Sealing Integrity in the Context of CO2 Lois E. Yoksouilan, Jared T. Freiburg, Shane K, Geological Storage Butler, Peter M. Berger, William R. Roy, University of Jean-Charles Manceau, Pascal Audigane, Francis Illinois (Urbana-Champaign), Prairie Research Claret, Marc Parmentier, BRGM; Tim J. Tambach, Institute, Illinois State Geological Survey TNO; Fabrizio Gherardi, IGG; Alain Dimier, Olaf Ukelis, Elodie Jeandel, Francis Cladt, EIFER; 474. Density Measurements and SAFT EOS of Thierry Yalamas, PHIMECA; Christophe Nussbaum, Supercritical CO -H O System for CO Geological 2 2 2 SWISSTOPO Storage Yi Zhang, Yongchen Song, Yong Shen, Weiwei 482. Thermodynamic Modeling of Carbonation of Jian, Yangchun Zhan, Wanli Xing, Cheng Hu, Cementitious Materials in Contact with
Dalian University of Technology Supercritical CO2 70 Hiroaki Minoo, Tetsuya Ishida, Yuya Takahashi, 475. Containment of CO in CCS: Role of Caprocks and 2 University of TOKYO Faults
John Kaldi, Ric Daniel, Ulrike Schacht, Guilliaume 483. Chemical Impacts of CO2 Flooding on Well Backe, CO2CRC@University of Adelaide; Eric Composite Samples: Experimental Assessment
Tenthorey, CO2CRC@Geoscience Australia; Karsten of Well Integrity for CO2 Sequestration Michael, Jim Underschulz, CO2CRC@CSIRO; Andy Yuki Asahara, Saeko Mito, Ziqiu Xue, RITE; Yuji Nicol, CO2CRC@GNS Yamashita, Kazutoshi Miyashiro, Japan CCS Co, Ltd.
Wellbore Integrity 484. Assessment of Well Integrity at Nagaoka CO2 Injection Site Using Ultrasonic Logging and 476. Towards a Frequency Distribution of Effective Cement Bond Log Data Permeabilities of Leaky Wellbores Takahiro Nakjima, Ziqiu Xue, RITE; Jiro Watanabe, Dean Checkai, Qing Tao, Steven Bryant, University Yoshihiro Ito, Susumu Sakashita, Geophysical of Texas at Austin Surveying Co, Ltd 477. Wellbore Permeability Estimates from Vertical 485. Influence of Pressure, CO and Chromium- Interference Testing of Existing Wells 2 Content of Injection Pipe Steels on the Sarah Gasda, Uni CIPR; Michael Celia, James Wang, Reliability of a Saline Aquifer Water CCS-Site in Princeton University; Andrew Duguid, the Northern German Basin Schlumberger Carbon Services Anja Pfennig, Sabrina Sultz, HTW Applied 478. Analysis of Interfacial De-Bonding of University of Berlin; Axel Kranzmann, BAM Federal
Geopolymer Annular Sealing in CO2 Geo- Institute of Materials Research and Testing Berlin Sequestration Wellbore 486. Corrosion Fatigue Behavior and S-N-curve of Giasuddin Haider, Jay Sanjayan, Swinburne AISI 420 Exposed to CCS-Environment Obtained University of Technology; P.Ranjith, Monash from Laboratory In-Situ-Experiments University Anja Pfennig, Reiner Weigand, Marcus Wolf, HTW 479. Advanced Cement Integrity Evaluation of an Old Applied University of Berlin; Axel Kranzmann, Well in the Rousse Field Claus-Peter Bork, BAM Federal Institute of Matteo Loizzo, Actys BEE; Ulrike Miersemann, Materials Research and Testing Berlin Schlumberger Carbon Services; Patrik Lamy, Andre 487. Reactive Flow Channelization in Fractured Garnier, Total S.A. Cement- Implications for Wellbore Integrity 480. Analysis on the Chemical and Mechanical Quinn Wenning, Marc Hesse, Steven Bryant, The
Stability of the Grouting Cement for CO2 University of Texas at Austin; Nicolas Huerta, The Injection Well University of Texas at Austin and US DOE NETL Taehee Kim, Gi-Tak Chae, Hee-Kwon Lee, Seung- 488. The Long-Term Corrosion Behavior of Woo Lee, Byung-Woo Yum, Korean Institute of Abandoned Wells at CO Geological Storage Geoscience and Mineral Resources 2 Conditions: (1) Experimental Results for Cement Alteration Hisao Satoh, Satoko Shimoda, Kohei Yamaguchi, Hiroyasu Kato, Mitsubishi Materials Corporation; YujiYamashita, Kazutoshi Miyashiro, Shigeru Saito, Japan CCS Co., Ltd 489. The Long-Term Corrosion Behavior of 496. Experimental Studies on Mineral Sequestration
Abandoned Wells at CO2 Geological Storage of CO2 with Buffer Solution and Fly Ash in Brines Conditions: (2) Experimental Results for Casing Qi Liu, Mercedes Maroto-Valer, University of Steel Corrosion Nottingham Shigeki Azuma, Hiroyasu Kato, Mitsubishi 497. Density Functional Theory Calculations of the Materials Corporation; Kazutoshi Miyashiro, Interaction of Olivine with Water Shigeru Saito, Japan CCS Co., Ltd Valentina Prigiobbe, University of Texas at Austin; 490. The Long-Term Corrosion Behavior of Dong-Hee Lim, Ana Suarez-Negreira, Jennifer
Abandoned Wells at CO2 Geological Storage Wilcox, Stanford University Conditions: (3) Assessment of Long-Term 498. Silicate Carbonation in Supercritical CO (1,000-Year) Performance of Abandoned Wells for 2 Containing Dissolved H O: an In-Situ High Geological CO Storage 2 2 Pressure X-Ray Diffraction Study Kohei Yamaguchi, Hiroyasu Kato, Satoko Shimoda, HT Schaef, QRS Miller, CJ Thompson, JS Loring, Mitsubishi Materials Corporation; Michael 71 ME Bowden, BW Arey, BP McGrail, KM Rosso, Stenhouse, Wei Zhou, Alexandro Papafotiou, Pacific Northwest National Laboratory INTERA Incorporated; Yuji Yamashita, Kazutoshi Miyashiro, Shigeru Saito, Japan CCS Co., Ltd. 499. Tracing Carbon: Natural Mineral Carbonation and the Incorporation of Atmospheric vs. 491. Corrosion Studies on Casing Steel in CO Storage 2 Recycled CO Environments 2 Amy Stephen, Gawen Jenkin, Daniel Smith, Xiaolong Zhang, John Zevenbergen, Tjirk University of Leicester; Mike Styles, Jon Benedictus, TNO Naden, BGS; Adrian Boyce, Scottish Universities Other Environmental Research Centre; Melanie Leng, University of Leicester and NERC Isotope 492. IEAGHG Research Networks, Past Achievements Geosciences Laboratory; Ian Millar, NERC Isotope and Future Focus Geosciences Laboratory Toby Aiken, Ameena Camps, Samanatha Neades, Ludmilla Basava-Reddi, Tim Dixon, IEAGHG 500. Transformations of Sulfides During Aqueous Carbonation of Oil Shale Ash Developments in Other Storage Options for CO 2 Kadriann Tamm, Rein Kuusik, Mai Uibu, Juha Basalts and other Low Permeability Reservoirs Kallas, Tallinn University of Technology
493. Experimental Studies on In-Situ CO2 Mineral 501. Carbon Capture and Fixation using Lime- Storage: Presentation of a Novel Plug Flow Containing Wastes: The Influence of Aqueous Reactor Phase Composition on Ca Dissolution from Oil Iwona Galeczka, Domenik Wolff-Boenish, Sigurdur Shale Ash Gilason, University of Iceland Mai Uibu, Rein Kuusik, Tallinn University of Technology Coal Beds 502. CO Mineralisation: Concept for Co-Utilization 494. Safety Assessment of CO Storage in Coal- 2 2 of Oil Shale Energetics Waste Streams in CaCO Bearing Formation 3 Production Sohei Shimada, Yukiya Sakou, The University of Olga Velts, Mai Uibu, Juha Kallas, Rein Kuusik, Tokyo Tallinn University of Technology Mineralisation 503. Dissolution of Activated Serpentine for Direct 495. Impact of Alkalinity Sources on the Life- Flue Gas Mineralization Cycle Energy Efficiency of Mineral Carbonation Subrahamanian Hariharan, Mischa Werner, Marco Technologies Mazzotti, ETH Zurich; Daniela Zingaretti, Renato Abigail Kirchofer, Jeniifer Wilcox, Adam Brandt, Baciocchi, University of Rome Tor Vergata Stanford University; Sam Krevor, Imperial College; Valentina Prigiobbe, University of Texas at Austin
www.ghgt.info • [email protected] Ocean Storage CCS for Industrial Sources (Non Power) 504. Exposure Experiments of Geochemical Cement Reference Samples to Carbon Dioxide 512. Exergy Comparison of CO Capture by Oxy- Nobuo Tsurushima, Namiha Yamada, Masahiro 2 Combustion and by Antisublimation on a Suzumura, National Institute of Advanced Cement Plant Industrial Science and Technology(AIST) Denind Clodic, EReIE-SAS 505. Effects of Seawater Acidification Induced by CO 2 513. Integrating Calcium Looping CO Capture with on Microbial Processes on Dissolved Organic 2 the Manufacture of Cement Matter Charles Dean, Nick Florin, Paul Fennell, Thomas Namiha Yamada, Nobuo Tsurushima, Masahiro Hills, Imperial College London Suzumura, National Institute of Advanced Industrial Science and Technology (AIST) Iron and Steel 72 Other 514. Experimental Studies of Ammonia Solution with Additives for Suppression of Ammonia 506. Numerical Analysis of Storage Potentials for CO 2 Vaporization in the Ammonia Based CO Capture Micro-Bubble Storage (CMS) 2 Process Takashi Hitomi, Kenichiro Suzuki, Obayashi Co; Chi-Kyu Ahn, Kunwoo Han, Man Su Lee, Je Young Takumi Shidahara, NEWJEC Inc.; Masayuki Kim, Hee Dong Chun, RIST; Yoori Kim, Jong Moon Yamaura, Dia Consultants Co.; Masanori Tozawa, Park, POSTECH Asano Taiseikiso Engineering Co.; Masahiko Tagami, Kawasaki Geological Engineering Co.; 515. Costs and Potential of Carbon Capture and Hiroshi Wada, Engineering Advancement Storage at an Integrated Steel Mill Association of Japan Antii Arasto, Eemeli Tsupari, Janne Kärki, VTT Technical Research Centre of Finland; Miika 507. Numerical Study on Field-Scale Behavior of Sihvonen Jarmo Lilja, Ruukki Metals Oy Carbon in CO2 Micro Bubble Storage (CMS) Satoru Miyoshi, Takashi Hitomi, Obayashi 516. Application of Sorption Enhanced Water Gas Corporation; Hiroshi Wada, Engineering Shift for Carbon Capture in Integrated Advancement Association of Japan; Kaoru Steelworks Inaba, Takenaka Corporation; Masayuki Yamaura, Matteo Gazzani, Giampaolo Manzolini, Matteo Dia Consultant Romano, Politecnico di Milano 508. Numerical Modelling of Hydrate Formation in 517. Steel Industries in Japan Achieve Most Efficient Energy Cut-Off Chemical Absorption Process for Sand Sediment Simulating Sub-Seabed CO2 Storage in the Form of Gas Hydrate Carbon Dioxide Capture from Blast Furnace Gas Takuya Nakashima, Toru Sato, University of Tokyo; Mikihiro Hayashi, Tomohiro Mimura, NIPPON Masayuki Inui, Mitsubishi Heavy Industries, Ltd Steel Engineering Co,Ltd 509. Storage Potential and Economic Feasibility for 518. Development of PSA System for the Recovery of Carbon Dioxide and Carbon Monoxide from CO2 Micro-Bubble Storage (CMS) in Japan Takumi Shidahara, NEWJEC Inc; Tadahiko Blast Furnace Gas in Steel Works Okumura, Hideaki Miida, Engineering Hitoshi Saima, Yasuhiro Mogi, Takashi Haraoka, JFE Advancement Association of Japan (ENAA); Steel Corp. Masato Shimoyama, Ohbayashi Corporation; Refineries Norifumi Matsushita, Oyo Corporation; Takashi Yamamoto, Kawasaki Geological Engineering Co. 519. Performance and NOx Emissions of Refinery Ltd; Takeshi Sasakura, Kajima Corporation; Fired Heaters Retrofitted to Hydrogen Toyokazu Ogawa, Taisei Corporation Combustion Mario Ditarantom Rahul Anantharaman, Torleif 510. A Numerical Simulation Study for the Weydahl, SINTEF Energy Research Distributed CCS
Toshiyuki Tosha, GSJ/AIST 520. CO2 Capture from Oil and Gas Operations Karl Gerdes, Cliff Lowe, Babatunde Oyenekan, 511. The Newly Ecological Concrete Reducing CO 2 Chevron Energy Technology Co. Emissions Below Zero Level Ichiro Yoshioka, Daisaku Obata, Hideo Nanjo, Other The Chugoku Electric Power Co,Inc; Kosuke 521. Investigation into Optimal CO Concentration for Yokozeki, Takeshi Torichigai, Kajima Corporation; 2 CO2 Capture from Aluminium Production Minoru Morioka, Takayuki Higuchi, Denki Kagaku Anette Mathisen Morten C. Melaaen, Tel-Tek and Kogyo Co.,Ltd Telemark University College; Henriette Sørensen, Tel-Tek 522. Deployment of CCS in Industrial Applications in Energy Efficiency in CCS Systems the EU – Timing, Scope and Coordination 530. CO Capture Processes: Novel Approach to Johan Rootzén, Filip Johnsson, Chalmers 2 Benchmarking and Evaluation of Improvement University of Technology Potentials
523. Techno-Economic Performance of CO2 Capture- Rahul Anantharam, Kristin Jordal, SINTEF Energy Network Configurations in the Industry: A Case Research; Truls Gundersen, NTNU Study for the Dutch Botlek Area 531. Exergy Analysis for Ulta-Supercritical Power Niels Berghout, Takeshi Kuranochi, Machteld van Plant den Broek, Andrea Ramírez Sandhya Hasti, Andy Aroonwilas, Amornvadee CCS Technology Assessment and System Veawab, University Of Regina Integration Integrated CCS Systems CCS and Water Use 532. Design and Analysis of CO Networks 2 73 524. Techno-Economic Evaluation of Processes for Ahmed Alhajaj, Nilay Shah, Imperial College
Oxygen and Water Deep Removal from the CO2 London Product Stream Integration of CCS in Present and Future Energy Zeina Abbas, Mohammad Abu Zahra, Toufic Systems Mezher, Masdar Institute of Science and
Technology 533. On Methods for Maturity Assessment of CO2 Capture Technologies 525. IEAGHG Investigation of Extraction of Formation Hamidreza Bakhtiary-Davijany, DNV Water from CO2 Storage Ryan Klapperich, Robert Cowan, Charles Gorecki, 534. Perspectives of CO2 Value Chains on Distributed Guoxiang Liu, Jordan Bremer, Yevhen Holubnyad, Energy Systems for Gas Industry Nicholas Kalenze, Damion Knudsen, EERC; Susumu Nishio, Takuto Isshiki, Hiromichi Ludmilla Basava-Reddi, IEAGHG; Andrea McNemar, Kameyama, Tokyo Gas Co, Ltd; Ziqiu Xue, RITE U.S. Department of Energy 535. Assessment of Low Carbon Energy Technologies: Costs Fossil Fuels and CCS Andrea Ramirez, Utrecht University; Bhavik 526. Making CCS Pay for Itself: Storage Strategies in Bakashi, Ohio State University; Edgar Hertwich, Geopressured/Geothermal Aquifers NTNU Reza Ganjdanesh, Steven bryant, Gary Pope, Kamy Sepehrnoori, The University of Texas at Austin Need for Flexibility 527. Economic Evaluation of Ship-Based CCS with 536. Dynamic Modelling and Validation of Post
Availability Combustion CO2 Capture Plants in Australian Youngkyun Seo, Daejun Chang, Korea Advanced Coal-Fired Power Stations Institute of Science of Technology; Jung-Yuel Jung, Mai Bui, Indra Gunawan, Vincent Verheyen, Cheol Huh, Seong-Gil Kang, Korea Ocean Research Monash University; Erik Meuleman, Paul Feron, & Development Institute CSIRO 528. Costs and Performance of Advanced Zero 537. Market Driven Operation: Flexible Operating Emission Systems of IGCC with CCS in Japan Mechanisms for Post Combustion Capture Koji Tokimatsu, Shigeki Tsuboi, Junichi iritani, Earl Goetheer, Robert de Kler, TNO Masaki Onozaki, The Institute of Applied Energy 538. Optimal Heat Management in an Integrated
529. Optimization and Cost Evaluation of Integrated Fossil-Renewable Energy System with CO2 Aqueous Ammonia Capture with Mineralisation Capture using Recyclable Salts for Distributed CCS Charles Kang, Adam Brandt, Louis Durlofsky, Xiaolong Wang, Mercedes Maroto-Valer, University Stanford University of Nottingham
www.ghgt.info • [email protected] Risk Assessment Other 539. Integrated Risk Assessment for CCS 548. Developing Framework for Multi-Criteria Matt Gerstenberger, Rob Buxton, Annemarie Analysis of CCS A Standardized Approach to the Christopherson, Andy Nicol, GNS Science and Assessment of CCS Projects CO2CRC; Guy Allinson, Wanwan Hou, CO2CRC and Jana Jakobsen, Mona Mølnvik, Grethe Tangen, University of New South Wales; Greg Leamon, SINTEF Energy Research CO2CRC and Geoscience Australia Transport and Infratructure Developement 540. Common Themes in Risk Evaluation Among CO Quality Issues Eight Geosequestration Projects 2
Ken Hnottavange-Telleen, Schlumberger Carbon 549. Effect of SO2 and NO2 on Corrosion and Solid
Services Formation in Dense Phase CO2 Pipelines Arne Dugstad, Bjørn Morland, Malgorzata Halseid, 541. Risk Based Qualification and Verification of Institute for Energy Technology 74 Large-Scale CO2 Absorption Processes Tore Myhrvold, Erik T. Hessen, Hamidreza 550. CO2Mix Project: Experimental Determination of
Bakhtiary-Davijany, Det Norske Veritas AS Thermo-Physical Properties of CO2-Rich Mixtures Sigurd Weidemann Løvseth, Geir Skaugen, H.G. 542. Identification of Hazards and Environmental Jacob Stang, Jana P. Jakobsen, Øivind Wilhelmsen, Impact Assessment for an Integrated SINTEF Energy Research; Roland Span, Robin Approach to Emerging Risks of CO Capture 2 Wegge, Ruhr-Universität Bochum Installations
Nicola Paltrinieri, Valerio Cozzani, University of 551. Accurate Measurements of CO2-Rich Mixture Bologna; Leo Breedveld, 2B Consulenza Phase Equilibria Relevant for CCS Transport and Ambientale; Jill Wilday, Health and Safety Conditioning Laboratory H.G. Jacob Stang, Sigurd Weidemann Løvseth, Sigmund Ø. Størset, Bjarne Malvik, Håvard 543. Development of Risk Assessment Tool for CO 2 Reksted, SINTEF Energy Research Geological Storage ‘GERAS-CO2GS’ Atsuko Tanaka, Yasuhide Sakamoto, Takeshi Hubs and Transport Networks Komai, National Institute of Advanced Industrial 552. An Integrated Approach for Risk Assessment of Science (AIST) CO2 Infrastructure in COCATE Project Whole System LCA Studies Todd Flach, Knut Kvien, Semere Solomon, Det Norske Veritas; Oswaldo Morales Napoles, Corina 544. Full Chain Analysis and Comparison of Hulsbosch-Dam; Mark Spruijt, TNO Alternative Gas-Fired Power Plants with CO2 Capture and Storage with Clean Coal 553. CO2 Transport Solutions in the Skagerrak / Alternatives Kattegat Region Zhenggang Nie, Anna Korre, Sevket Durucan, Ragenhild Skagestad, Anette Mathisen, Hils Henrik Imperial College London Eldrup, Hans Aksel Haugen, Tel-Tek 545. Life-Cycle GHG Emission Factors of Final Energy 554. Dynamics of Carbon Dioxide Transport in a in China Multiple Sink Network Lixue Jiang, Xunmin Ou, Linwei Ma, Zheng Li, Jérémy Veltin, Stefan Belfroid, TNO Weidou Ni, Tsinghua Univeristy Pipelines 546. Environmental Performance Tool for CCS Chains 555. Experimental Investigation of CO Outflow from Joris Koornneef, Anouk Florentinus, Ruut 2 High Pressure Reservoirs Brandsma, Ecofys; Arjan van Horssen, Toon van Mohammad Ahmad, Luuk Buit, DNV-KEMA; Corina Harmelen, Utrecht University; Andrea Remirez, Hulsbosch-Dam, Mark Spruijt, TNO Alireza Talaei, TNO; Arjan Plomp, Jeroen van
Deurzen, Koen Smekens, ECN 556. PVTx Properties of a Two-Phase CO2 Jet from Ruptured Pipeline 547. Environmental Assessment of Coal-Fired Oxyfuel Helle Augdal Botnen, Guttorm Alendal, Ivar Power Plants - Cryogenic vs. Membrane-Oxygen Aavatsmark, University of Bergen; Abdirahman Production Omar, Uni-Bjerknes and Uni-Researchs and Peter Markewitz, Andrea Schreiber, Petra Zappm Bjerknes Centre for Climate Research; Josefine Marx, Research Centre Juelich Trul Johanessen, Geophysical Institute, University of Bergen and Uni-Bjerknes 557. Experimental Study of N2 Impurity Effect on the 566. Offshore Operational Availability of Onboard
Steady and Unsteady CO2 Pipeline Flow Direct Injection of CO2 into Sub-Seabed Meang-Ik Cho, Cheol Huh, Jung-Yeul Jung, Seong- Geological Formations Gil Kang, KORDI Tsuyoshi Miyazaki, Hiroyuki Osawa, Masami Matsuura, Japan Agency for Marine-Earth 558. Optimal Pipeline Design with Increasing CO 2 Science and Technology; Makoto Ohta, Mitsubishi Flow Rates Heavy Industries, Ltd; Masahiko Ozaki, The Zikai Wang, Gustavo Fimbres Weihs, Dianne Wiley, University of Tokyo; Holger Bietz, Global CCS CO2CRC and The University of New South Wales; Institute Gina Cardenas, CO2CRC 567. Onboard CO Injection to Sub-Seabed 559. A Phased Approach to Building a Pipeline 2 Geological Formations via Picked-Up Flexible Network for CO Transport During CCS 2 Pipe Melanie Jensen, Peng Pei, Peter A. Letvin, Anthony Naoki Nakazawa, Systems Engineering Associates, Snyder, Robert Cowan, Charles Gorecki, Edward Inc; Kyozo Kikuchi, SEMTEC, Inc; Kenichi Ishii, 75 Steadman, EERC Yakumu Yamaguti, Furukawa Electric Co,
560. CO2 Pipeline Integrity: A Coupled Fluid-Structure Ltd; Makoto Ohta, Mitsubishi Heavy Industries, Model Using a Reference Equation of State for Ltd; Masahiko Ozaki, The University of Tokyo;
CO2 Holger Bietz, Global CCS Institute Eskil Aursand, Peder Aursand, Morten Hammer, 568. Ship-Based Offshore CCS Featuring CO Shuttle Svend Tollak Munkejord, SINTEF Energy Research; 2 Ships Equipped with Injection Facilities Torodd Berstad, Cato Dørum, Håkon Nordhagen, Masahiko Ozaki, The University of Tokyo; Takashi SINTEF Materials and Chemistry Ohsumi, Central Research Institute of Electric 561. Engineering and Material Challenges for High Power Industry; Ryuichiro Kajiyama, Central
Pressure Dense Phase CO2 Pipeline Transport in Research Institute of Electric Power Industry; Flow Mode Holger Bietz, Global CCS Institute Kumar Patchigolla, John Oakley, Cranfield 569. Regulations on Ship Transport and Onboard University Direct Injection of CO2 into Sub-Seabed 562. Corrosion Effects in Pressurized CO2 Containing Geological Formations Impurities Satoshi Suzuki, Takashi Nakamura, Japan NUS Aki Sebastian Ruhl, Axel Kranzmann, BAM Federal Co, Ltd; Motoshi Muraoka, Shintaro Higashi, NTT Institute for Materials Research and Testing Data Institute of Management Consulting, Inc; Takashi Ohsumi, Central Research Institute 563. Corrosion of Pipe Steel in CO with Impurities 2 of Electric Power Industry; Holger Bietz, Global and Possible Solutions CCS Institute Xiaolong Zhang, John Zevenbergen, Mark Spruijt, TNO; Marta Borys, Accoat 570. A Feasibility Study on CO2 Marine Transportation in South Korea Shipping Byeong-Yong Yoo, Seung-Bae Kim, Il-Guk Woo, 564. Ships Versus Pipeline Transport Yeong-tae Oh, Sung-Geun Lee, DSME Chris Hendriks, Pieter van Breevoort; Andrea Source Sink Matching Ramirez, Utrecht University 571. CO Transport Strategy for the Offshore CCS in 565. Cargo Conditions of CO in Shuttle Transport by 2 2 Korea Ships Jung-Yuel Jung, Cheol Huh, Seong-Gil Kang, Korea Noriyuki Kokubun, Chiyoda Corpolation; Kiyohiko Ocean Research & Development Institute; Ko, Sasebo Heavy Industries Co, Ltd; Masahiko Youngkyun Seo, DaeJun Chang; Korea Advanced Ozaki, The University of Tokyo; Holger Bietz, Global Institute of Science and Technology CCS Institute 572. Source-Sink Matching for Carbon Capture and Storage in Eastern India and its Economic Aspects Priyank Jain, Khanindra Pathak, Swarup Tripathy, Indian Institute of Technology
www.ghgt.info • [email protected] Other 581. A Moisture Swing Sorbent for Direct Air Capture of Carbon Dioxide: Thermodynamic and Kinetic 573. Techno-Economic Assessmnet of On-Board Analysis Decarbonization of Liquid Fuel for CO Emission 2 Tao Wang, Klaus Lackner, Columbia University Reduction from Mobile Sources Hasan Imran, Saudi Aramco Other 574. Integrated Techno-Economic and Environmental 582. Brazilian Renewable Carbon Capture and
Benchmark of Two CO2 Transport Technologies Geological Storage Map: Posibilities for Parana Simon Roussanaly, Erik Hognes, Jana Jakobsen, Basin Sintef Energy Research Claudia Xavier Machado, Gabriela Camboim Rockett, João Marcelo Medina Ketzer, Center of 575. Conceptual Design of CO Transportation System 2 Excellence in Research and Innovation in for CCS Petroleum, Mineral Resources and Carbon Storage Takakazu Suzuki, ENAA; Makoto Toriumi, Universal 76 Shipbuilding Corporation; Takuya Sakemi, Taisei Legal and Regulatory Aspects of CCS and Long
Corporation; Naokki Masui, Obayashi Corporation; Term Liability of CO2 Storage Shuhu Yano, Mitsubishi Heavy Industrials, Ltd; Developments Hideki Fujita, Mitsui Engineering & Shipbuilding Co. Ltd; Hironori Furukawa, JFE 583. Options to Implement a Regulatory Framework
Engineering Corporation to Accommodate Geological Storage of CO2 in Saskatchewan, Canada 576. Logistical and Economical Benefits of Using Jose Condor, Johnson-Shoyama School of Public Offshore Thermal Power in a Future CCS Scheme Policy / Alberta Department of Energy; Malcolm Björn Windén, Philip Wilson, Ajit Shenoi, University Wilson, Petroleum Technology Research Center of Southampton; Mingsheng Chen, National University of Singapore; Naoya Okamoto, 584. The Saskatchewan Environmental Code: A Universal Shipbuilding Corporation; Do Kyun Provincial Approach for Managing GHGs Kim, Pusan National University; Elizabeth McGraig, Emissions London Design Support Office Jose Condor, Johnson-Shoyama School of Public Policy / Alberta Department of Energy; Malcolm Towards Negative CO Emissions 2 Wilson, Petroleum Technology Research Center Biomass Energy Use Combined with CCS Health and Safety 577. Pilot-Scale Investigation of an Innovative 585. Suicide by Catalytic Converter and Deaths at Process for Biogas Upgrading with CO Capture 2 Lake Nyos; Is Carbon Monoxide the Toxic and Storage Agent? Implications for Leakage Risks from CO Renato Baciocchi, Guilia Costa, Daniela Zingaretti, 2 Pipelines University of Rome; Tor Vergata; Ennio Carnevale, Ian Duncan, BEG, University of Texas at Austin Lidia Lombardi, Tommaso Olivieri, Alessandra Paradisi, Laura Zanchi, University of Florence Requirements
578. Techno-Economic Study of Biomass Co-Firing 586. EU FP7 CO2Europipe: Towards a European CO2 Transport Infrastructure with and without CO2 Capture in an Australian Black Coal-Fired Power Plant Filip Neele, TNO, Tom Mikunda, Ad Seebregts, ECN;
Zakieh Khorshidi, Minh Ho, Dianne Wiley, The Stijn Santen, CO2-Net; Anton van der Burgt, Stedin, University of New South Wales and CO2CRC Ola Nestaas, Sigve Apeland, Gassco; Sarah Stiff, E.ON New Build & Technology; Carl Hustad, 579. Bio-CCS: Co-Firing of Established Greenfield CO -Global and Novel, Brownfield Biomass Resources Under 2
Air, Oxygen-Enriched Air and Oxyfuel Conditions 587. How to Submit a CO2 Storage Permit: Identifying Sam Pickard, Sayed Daood, William Nimmo, Appropriate Geological Site Characterisation to Mohamed Pourkashanian, University of Leeds; Meet European Regulatory Requirements Richard Lord, University of Strathclyde Jonathan Pearce, Sarah Hannis, Gary Kirby, Maxine Akhurst, Martyn Quinn, BGS; Carsten Capturing CO from the Air 2 Nielsen, Peter Frykman, GEUS Danish Geological
580. Capturing Atmospheric CO2 Using Supported Survey; Finn Dalhoff, Vattenfall; Florence Delprat- Anime Sorbents Jannaud, IFPEN Energie Nouvelles Wim Brilman, Rens Veneman, University of Twente Other 595. Cost Development and Economic Value of Implementing CCS in the United Kingdom 588. A Study on Regulatory Requirements of CCS Chris Hendriks, Joris Koornneef, Ecofys; Jason Eis, Technology Development in Taiwan Mathew Billson, Carbon Trust, DECC Ju-Hsiu Cheng, Joey Lu, Tseng-Hsiang Chieh, Chun-Yu Chen, Industrial Technology Research 596. A Sensitivity Analysis of the Global and Regional Institute Deployment of CCS to the Cost of Storage Barbara Koebl, Machteld van den Broek, André 589. Carbon Capture Regulation for Three Industrial Faaij, Utrecht University; Bas van Ruijven, Sectors in the UAE: An Empirical Analysis NCAR; Detlef van Vuuren, Netherlands I-Tsung Tsai, Sanaa El Waddi, Masdar Institute of Environmental Assessment Agency Science and Technology; Othman Zarzour, Masdar Carbon Unit 597. Determining the Potential for Carbon Capture and Storage in Southeast Asia 590. Interaction of CO with Subsurface Resources 2 Pradeep Thakaran, Jia Li, University of Exeter; Brad Field, Robb Funnell, CO2CRC; Stephan Bachu, 77 Douglas Macdonald, Xiaodong Pei, Rick John Faltison, Alberta Innovates – Technology Hasselback, Bishal Thapa, Karthik Ganesan, Maria Futures; Ludmilla Basava-Reddi, IEAGHG; Christina Pascaul, Independent Consultant; Mark Bunch, CO2CRC and University of Adelaide; Bill Gunter, G BACH Enterprises Inc; Craig Hart, Sam Holloway, BGS; Rick Richardson, CanZealand Johns Hopkins University Geoscience Ltd 598. Analysis of the CCS Considering Environment Energy and Climate Change Policies and CCS Co-Benefit of Air Pollutants in China Beyond Kyoto Jianguo Liang, Akinobu Murata, National Institute of Advanced Industrial Science and Technology 591. Comprehensive Analysis of Measures Towards Sustainable Development and Climate 599. The Role of CCS in Meeting Emissions Stabilization: ALPS Scenarios Reductions Goals in a 2°C Scenario Miyuki Nagashima, Fuminori Sano, Ayami Hayashi, Sean McCoy, Justine Garrett, Uwe Remme, Takashi Homma, Junichiro Oda, Kenichi Wada, Nathalie Trudeau, Antonia Gawel, International Kohko Tokushige, Toshimasa Tomoda, RITE; Kiego Energy Agency Akimoto, RITE and The University of Tokyo 600. Forecast of Advanced Technology for Coal The Role of CCS in Future Energy Systems: Scenario Power Generation Towards the Year of 2050 in Studies CO2 Reduction Model of Japan Takashi Makamura, Keiji Makino, Japan Coal 592. Evaluating the Role of Carbon Capture and Energy Center Storage as a Remedial Solution for Climate Change Issue in the Future of Iran’s Energy 601. Analysis of CCS Impacts on Asian Energy System Security Zoya Banan, Abbas Maleki, Sharif University of Junichiro Oda, Fuminori Sano, Miyuki Nagashima, Technology Kenichi Wada, Toshimasa Tomoda, RITE; Keigo Akimoto, RITE and The University of Tokyo 593. Role of CCS in a New International Climate Regime 602. Cost of Delaying Carbon Capture and Utilization Fenjun Duan, Tetsuo Yuhara, The Canon Institute / Sequestration (CCS) Development for Global Studies; Hiroshi Ujita, Tokyo Institute of Sadia Raveendran, Howard Herzog, Massachusetts Technology; Kauhiro Tsuzuki, Toshikazu Shindou, Institute of Technology The Institute of Applied Energy 603. Analysis of CCS Diffusion for CO2 Emission 594. Technical and Financial Assessment of Reduction Considering Technology Diffusion Large-Scale Deployment of CCS Under Current Barriers in the Real World
U.S. Regulations: Role of CO2 Interim Storage and Fuminori Sano, Keigo Akimoto, Kenichi Wada, Enhanced Oil Recovery Miyuki Nagashima, RITE Karim Farhat, Josh Coplin, Daniel Lewis, Sebastian Peterlin, Ramon Simms, Stanford University
www.ghgt.info • [email protected] Policy Approaches Communication Activites and Experiences 604. California’s Policy Approach to Develop 612. Engaging the Community with a “Green Town” Carbon Capture, Utilization and Sequestration Concept as a Mitigation Technology Ning Chen, The University of Western Australia; Elizabeth Burton, Lawrence Berkeley National Mirjam Fürth, R.Ajit Shenoi, Philip A. Wilson, Laboratory; Niall Mateer, California Institute University of Southampton; Michael C. Johnson, for Energy & Environment; John Henry Beyer, Lloyd’s Register; Zhi Yung Tay, National University Lawrence Berkeley National Laboratory of Singapore 605. Restriction of Carbon Intensity Reduction and 613. Stakeholder Perceptions on Carbon Capture its Implications for Policymakers in Guangdong and Storage Technologies in Finland – Economic, Province, China Technological, Political and Societal Bing Bai, Xiaochun Li, Qi Li, Lu Shi, Institute of Rock Uncertainties 78 and Soil Mechanics Laura Kainiemi, Arho Toikka, Carl- Johan Fogelholm, Helsinki University Other 614. Public Engagement of Carbon Capture and 606. Development of Strategies for CO Value Chain 2 Storage (CCS) in South Africa Deployment: ECCO - European Value Chain for Sharon Mashau, Brendan Beck, South African CO 2 Centre for Carbon Capture and Storage (SACCCS) Kristin Jordal, Jana P. Jakobsen, Petter Røkke, SINTEF Energy Research; Laetitia Birkeland, 615. Emergency Response Planning: An Example The Bellona Foundation; Charles Eikhoff, of International Collaboration in CCS Progressive Energy Limited; Joris Morbee, Community Outreach and Project Development European Commission, DG JRC Norman Sacuta, Petroleum Technology Research Centre; Lori Gauvreau, Schlumberger Carbon 607. The State of Development of the UK CCS Services; Sallie Greenberg, Illinois State Geological Industry: An Expert Questionnaire and Systems- Survey Based Approach Sam Pickard, Timothy Foxon, University of Leeds Knowledge Sharing 608. Preliminary Assessment on Deployment of 616. Developing a CCS Communication Framework Carbon Capture and Storage in Nigeria for Japan Abubakar Usman, Newcastle University, UK Hidemitsu Shimada, Tsukasa Kumagai, JGC Corporation; Hiroyasu Takase, Quintessa Japan; 609. The GDCCSR Project Promoting Regional CCS- Ian Mckinley, McKinley Consulting; Satoshi Readiness in the Guangdong Province, South Someya, National Institute of Advanced Industrial China Science and Technology; Angus Henderson, Sean Di Zhou, Diaqing Zhao, Xiaochun Li, Guangzhou McClowry, Toshihiki Miyagawa, Global CCS Chinese Academy of Sciences; Qiang Liu, Chinese Institute National Development Committee; Jia Li, LinksChina Investment Advisory Ltd; Jon Gibbins, Social Science Research Edinburgh University; Xi Liang, Cambridge 617. Public Preferences to CCS: How Does it Change University Across Countries? Public Perception and Acceptance of CCS and Peta Ashworth, Naomi Boughen, Talia Jeanneret, Communication on CCS Karen Stenner, CSIRO; Edna Edna Einsiedel, Amanda Boyd, University of Calgary; Rhys Howell, Public Perception Simon Shackley, University of Edinburgh; Suzanne 610. Communicating CCS: Effects of Text-Only and Brunsting, Bas Van Bree, ECN Text-and-Visual Depictions of CO Storage on 2 618. Awareness, Knowledge and Perceptions of Risk Perceptions and Attitudes Carbon Capture and Storage: Trends in Public Suzanne Brunsting, Marjolein De Best-Waldhober, Opinion Development ECN; Hauke Riesch, David Reiner,Cambridge Suzanne Brunsting, Mia Paukovic, Marjolein de University Best-Waldhober, Koen Straver, ECN 611. CO Capture Project’s CCS Stakeholder Issues 2 619. Developing an Interactive Survey Game for Review and Analysis Informing Opinions About CCS Ioannis Chrysostomidis, Shahila Perumalpillai, Anne-Marie Dowd, Peta Ashworth, CSIRO; Mia ERM; Mark Bohm, Suncor Energy; Mark Crombie, Paukovic, Marjolein de Best-Waldhober Koen Suncor Energy/ICO2N Initiitative; Eric Beynon, Straver, ECN Arthur Lee, Chevron 620. ‘Tell Me What You Think About The Geological 622. ‘Not In My Back Yard’ (NIMBY) Sentiments and Storage of Carbon Dioxide’: Towards a Fuller the Structure of Initial Local Attitudes Toward
Understanding of Public Perceptions of CCS CO2 Storage Plans Leslie Mabon, Simon Shackley, University of Bart W. Terwel, Dancker Daamen, Emma Ter Mors, Edinburgh; Samuela Vercelli, Barbara Cordella, Leiden University Jonathan Anderlucci, Università di Roma ‘La 623. Informing People About CCS: A Review of Social Sapienza’,; Kelvin Boot, Plymouth Marine Research Studies Laboratory Samuela Vercelli, Jonathan Anderlucci, Salvatore 621. An Interactive Physical Model for the CCS Chain Lombardi, Nadia Battisti, Barbara Cordella, Sam Pickard, Tom Lynch, James McKay, Sandy Rosanne Memoli, Università di Roma ‘La Sapienza’; Black, University of Leeds Leslie Mabon, Scottish Carbon Capture and Storage, University of Edinburgh 79
Special Thanks
The Organisers would like to take this opportunity to thank all delegates, sponsors, supporters and contributors to the conference, without whom, it would not have been possible to arrange this conference. Sponsors, supporters and contributors are listed in the following pages, but we would also like to express our sincere notes of thanks and gratitude to the following. Again without their support, input and contributions, the conference would not have been as successful: • Ministry of Economy, Trade and Industry (METI) • Kyoto Prefectural Government • Kyoto City Government • Kyoto Chamber of Commerce and Industry • Kyoto Convention Bureau • Japan Sake and Shochu Makers Association • Nadagogo Brewers Association
www.ghgt.info • [email protected] Silver Sponsors
80 Bronze Sponsors
81
www.ghgt.info • [email protected] Supporters
82
China National Petroleum Corporation (CNPC)
Contributors
• The Federation of Electric Power Companies of Japan • The Japan Gas Association • The Japan Iron and Steel Federation • Kawasaki Heavy Industries Ltd. • Petroleum Association of Japan • Sumitomo Chemical Co., Ltd. • TOYOTA MOTOR CORPORATION 83
www.ghgt.info • [email protected]