DOCSLIB.ORG

Innovative Research and Products, Inc. En-104

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Innovative Research and Products, Inc. En-104 iiRRAAPP DIRECTORY AND COMPANY PROFILES - Fuel Cells, Hydrogen Energy and Related Nanotechnology INNOVATIVE RESEARCH AND PRODUCTS, INC. EN-104 DIRECTORY AND COMPANY PROFILES - FUEL CELLS, HYDROGEN ENERGY AND RELATED NANOTECHNOLOGY Alton Parish Project Analyst INNOVATIVE RESEARCH AND PRODUCTS ( iRAP ), INC. P.O. Box 16760 Stamford, CT 06905-8760 Tel: (203) 569-7909 Web: www.innoresearch.net Email: [email protected] Copyright2009@Innovative Research and Products, Inc., Stamford, CT U.S., Web: www.innoresearch.net DIRECTORY AND COMPANY PROFILES - Fuel Cells, Hydrogen Energy and Related Nanotechnology ABOUT iRAP Innovative Research and Products ( iRAP ), Inc. conducts market research and industry analysis in new generation technologies and products. Areas covered include advanced materials, nanotechnology and nonmaterial processing technologies and products, advanced ceramics, metals and alloys, high- performance coatings, automotive components, aircraft and aerospace materials, electronic devices, photonic components, membranes, plastics, pharmaceutical products and biotechnology. CUSTOM ANALYSIS iRAP will be happy to talk to you about your market research needs if you need to expand on the current market survey to cover a new product or technology. We are confident that we will meet your expectations and provide you the most accurate industry and market analysis. Send us an email outlining your market research and industry analysis objectives and we will provide you a FREE quote. TERMS OF PURCHASE By purchasing this report, the purchaser is bound to the following conditions: • The report can only be used by the group or the division which bought this report. • The report cannot be copied and sent to other groups or divisions in the same company or other companies. • Other than internal use, any quotes from this report can be made only with written permission from the publisher. DISCLAIMER iRAP has compiled information in this report as accurately as possible at the time of its publication. iRAP cautions that any information contained in this report should not be considered as a policy guide or endorsement of any company, technology, or product. iRAP takes no responsibility for any losses or damages that might result because of the reliance on this material. Copyright 2009 by Innovative Research and Products, Inc., Stamford, CT 06905, U.S.. Reproduction of any passage or table is strictly forbidden without permission of iRAP . MARCH 2009 Copyright2009@Innovative Research and Products, Inc., Stamford, CT U.S., Web: www.innoresearch.net DIRECTORY AND COMPANY PROFILES - Fuel Cells, Hydrogen Energy and Related Nanotechnology TABLE OF CONTENTS INTRODUCTION .........................................................................................................................................I PROTON EXCHANGE MEMBRANE FUEL CELL INDUSTRY PROFILES ........................................ 1 3M ................................................................................................................................................... 1 MEMBRANE ELECTRODE ASSEMBLIES MANUFACTURER, NANOSTRUCTURED CATALYST ........................................................................... 1 3P-ENERGY.................................................................................................................................... 2 DMFC DEVELOPER......................................................................................................... 2 ABSL POWER SOLUTIONS ......................................................................................................... 3 DMFC FOR MILITARY .................................................................................................... 3 ACADEMY OF SCIENCES OF THE CZECH REPUBLIC ......................................................... 4 METAL OXIDE BASED NANOPARTICLES.................................................................. 4 ACAL ENERGY.............................................................................................................................. 5 PEMFC-PLATINUM FREE CATHODE TECHNOLOGY.............................................. 5 ACTA SPA....................................................................................................................................... 6 NANOCATALYSTS FOR PEMFC AND DMFC.............................................................. 6 ADVENT TECHNOLOGIES SA.................................................................................................... 7 PEMFC COMPONENTS & SYSTEMS MANUFACTURER.......................................... 7 AEA TECHNOLOGY PLC ............................................................................................................. 8 BOP FOR SOFC & PEMFC .............................................................................................. 8 AEROGEL COMPOSITE, INC...................................................................................................... 9 CARBON AEROGEL SUPPORTED PLATINUM CATALYST...................................... 9 AIJU- TOY RESEARCH CENTRES OF SPAIN .......................................................................... 9 FUEL CELLS FOR TOY R&D.......................................................................................... 9 AIRBUS DEUTSCHLAND GMBH ............................................................................................. 10 PEMFC FOR AVIATION AUXILIARY POWER R&D ................................................. 10 AIR PRODUCTS PLC .................................................................................................................. 10 MAJOR HYDROGEN PRODUCER, HYDROGEN INFRASTRUCTURE .................. 11 AISIN SEIKI CO., LTD................................................................................................................ 11 PEMFC RESIDENTIAL & VEHICLE SYSTEMS DEVELOPER................................ 11 AKRON POLYMER SYSTEMS................................................................................................... 12 INORGANIC NANOPARTICLE TECHNOLOGY ........................................................ 12 ALBERTA RESEARCH COUNCIL INC. (ARC) ........................................................................ 12 TUBULAR MICRO SOLID OXIDE FUEL CELL DEVICE ......................................... 12 ALPHEA HYDROGENE.............................................................................................................. 13 PEMFC & H 2 STORAGE DEPLOYMENT CONSULTING.......................................... 13 ALP2S FUEL CELL SYSTEMS GMBH ..................................................................................... 13 SOFC DEVELOPER........................................................................................................ 13 ALTERGY FREEDOM ................................................................................................................. 14 PEMFC MANUFACTURER 1 KW -30KW .................................................................... 14 ALTERNATIVE FUEL SYSTEMS LTD (AFS) .......................................................................... 15 ALKALINE FUEL CELL DEVELOPER ....................................................................... 15 AMEC PLC.................................................................................................................................... 16 HYDROGEN INFRASTRUCTURE................................................................................ 16 AMERICAN POWER CONVERSION......................................................................................... 16 PEMFC MANUFACTURER ........................................................................................... 16 AMERICAN TRIM........................................................................................................................ 17 Copyright2009@Innovative Research and Products, Inc., Stamford, CT U.S., Web: www.innoresearch.net DIRECTORY AND COMPANY PROFILES - Fuel Cells, Hydrogen Energy and Related Nanotechnology JOINING SYSTEM FOR BIPOLAR PLATES............................................................... 17 ANGSTROM POWER INC. ......................................................................................................... 17 NANOSTRUCTURED MATERIALS AND MICROFABRICATION FOR FUEL CELLS ............................................................................................................ 17 NANOSTRUCTURED MATERIALS AND MICROFABRICATION FOR FUEL CELLS (CONTINUED) ................................................................................. 18 ÅNGSTRON MATERIALS, LLC. ................................................................................................ 19 GRAPHENE-BASED NANOCOMPOSITES FOR BIPOLAR PLATES ...................... 19 ANTIG ........................................................................................................................................... 19 DMFC 5W-200W MANUFACTURER............................................................................ 19 APEX NANOMATERIALS .......................................................................................................... 20 MANUFACTURER OF CARBON NANOTUBES......................................................... 20 APPLIED SCIENCES, INC. ........................................................................................................ 21 NANOGRAPHITE MATERIALS.................................................................................... 21 APOLLO ENERGY SYSTEMS...................................................................................................
Load more

Recommended publications
  • A Bergen Phd Thesis
    Integration and Dynamics of a Renewable Regenerative Hydrogen Fuel Cell System by Alvin Peter Bergen B.A.Sc., University of Victoria, 1994 M.A.Sc., University of Victoria, 1999 A Dissertation Submitted in Partial Fulfillment of the Requirements for the Degree of DOCTOR OF PHILOSOPHY in the Department of Mechanical Engineering © Alvin Bergen, 2008 University of Victoria All rights reserved. This thesis may not be reproduced in whole or in part, by photocopy or other means, without the permission of the author. ISBN: 978-0-494-41177-3 ii Supervisory Committee Integration and Dynamics of a Renewable Regenerative Hydrogen Fuel Cell System by Alvin Peter Bergen B.A.Sc., University of Victoria, 1994 M.Sc., University of University, 1999 Supervisory Committee Dr. Ned Djilali, Department of Mechanical Engineering Supervisor Dr. Peter Wild, Department of Mechanical Engineering Supervisor Dr. Andrew Rowe, Department of Mechanical Engineering Departmental Member Dr. Tom Fyles, Department of Chemistry Outside Member Dr. Brant Peppley, Department of Chemical Engineering, Queen’s University External Examiner iii Abstract Supervisory Committee Dr. Ned Djilali, Department of Mechanical Engineering Supervisor Dr. Peter Wild, Department of Mechanical Engineering Supervisor Dr. Andrew Rowe, Department of Mechanical Engineering Departmental Member Dr. Tom Fyles, Department of Chemistry Outside Member Dr. Brant Peppley, Department of Chemical Engineering, Queen’s University External Examiner This thesis explores the integration and dynamics of residential scale renewable- regenerative energy systems which employ hydrogen for energy buffering. The development of the Integrated Renewable Energy Experiment (IRENE) test-bed is presented. IRENE is a laboratory-scale distributed energy system with a modular structure which can be readily re-configured to test newly developed components for generic regenerative systems.
    [Show full text]
  • Hydrogen Fuel Cell Vehicle and a Stand- Alone Renewable Energy-Based Refuelling Station
    HYDROGEN FUEL CELL VEHICLE AND A STAND- ALONE RENEWABLE ENERGY-BASED REFUELLING STATION Master’s Thesis University of Jyväskylä Department of Biological and Environmental Science Master’s Degree Programme in Renewable Energy Atte Pakkanen 20th August, 2007 2 JYVÄSKYLÄ UNIVERSITY - Faculty of Mathematics and Science - Department of Biological and Environmental Science - Master’s Degree Programme in Renewable Energy Pakkanen Atte: Hydrogen fuel cell vehicle and a stand-alone renewable energy-based refuelling station Master´s Thesis: 107 p., 2 appendixes (2 p.) Supervisors: Dr. Mohanlal Kolhe and D.Sc. (Tech.) Margareta Wihersaari Inspectors: Dr. Mohanlal Kolhe and Dr. Jussi Maunuksela August 2007 Key words: hydrogen, fuel cell, hydrogen vehicle, hydrogen storage, metal hydride storage, electrolysis, renewable energy, alternative transportation fuels ABSTRACT Energy use for transportation purposes and the number of passenger vehicles is increasing rapidly around the world. Fuelling infrastructure based on hydrogen provides an attractive alternative to predominating fossil fuels. This thesis project includes research on hydrogen fuel cell vehicle and its local refuelling station based on hydrogen production from renewable energy sources. Hydrogen produced via electrolysis is stored in portable metal hydride containers to be used in a fuel cell hybrid vehicle. The test vehicle is equipped with a battery unit and two 6 kW electric motors. The targets of this thesis project were to test and estimate the driving range of the vehicle, to examine the behaviour of the metal hydride containers under changing temperatures and determine the rate of hydrogen production via electrolysis. Also hydrogen leak tests to assure safe testing procedures in the future were included to these initial tests.
    [Show full text]
  • Metal Hydride Hydrogen Storage and Compression Systems for Energy Storage Technologies
    international journal of hydrogen energy 46 (2021) 13647e13657 Available online at www.sciencedirect.com ScienceDirect journal homepage: www.elsevier.com/locate/he Metal hydride hydrogen storage and compression systems for energy storage technologies Boris P. Tarasov a,*, Pavel V. Fursikov a, Alexey A. Volodin a, Mikhail S. Bocharnikov a, Yustinas Ya Shimkus a, Aleksey M. Kashin b, Volodymyr A. Yartys c, Stanford Chidziva d, Sivakumar Pasupathi d, Mykhaylo V. Lototskyy d,** a Institute of Problems of Chemical Physics (IPCP) of Russian Academy of Sciences, Chernogolovka, 142432, Russia b InEnergy Group, Moscow, 115201, Russia c Institute for Energy Technology, Kjeller NO, 2027, Norway d HySA Systems Competence Centre, South African Institute for Advanced Materials Chemistry (SAIAMC), University of the Western Cape, Bellville, 7535, South Africa highlights Use of metal hydride storage and compression in hydrogen energy storage systems. AB5- and AB2-type hydrides for hydrogen storage and compression applications. Development of the energy storage systems and their metal hydride based components. article info abstract Article history: Along with a brief overview of literature data on energy storage technologies utilising Received 29 February 2020 hydrogen and metal hydrides, this article presents results of the related R&D activities Received in revised form carried out by the authors. The focus is put on proper selection of metal hydride materials 6 July 2020 on the basis of AB5- and AB2-type intermetallic compounds for hydrogen storage and Accepted 9 July 2020 compression applications, based on the analysis of PCT properties of the materials in Available online 6 August 2020 systems with H2 gas. The article also presents features of integrated energy storage sys- tems utilising metal hydride hydrogen storage and compression, as well as their metal Keywords: hydride based components developed at IPCP and HySA Systems.
    [Show full text]
  • Fundamental Studies of Electrochemical Reactions and Microfluidics in Proton Exchange Membrane Electrolyzer Cells
    University of Tennessee, Knoxville TRACE: Tennessee Research and Creative Exchange Doctoral Dissertations Graduate School 12-2016 Fundamental Studies of Electrochemical Reactions and Microfluidics in Proton Exchange Membrane Electrolyzer Cells Jingke Mo University of Tennessee, Knoxville, [email protected] Follow this and additional works at: https://trace.tennessee.edu/utk_graddiss Part of the Energy Systems Commons, and the Propulsion and Power Commons Recommended Citation Mo, Jingke, "Fundamental Studies of Electrochemical Reactions and Microfluidics in Proton Exchange Membrane Electrolyzer Cells. " PhD diss., University of Tennessee, 2016. https://trace.tennessee.edu/utk_graddiss/4151 This Dissertation is brought to you for free and open access by the Graduate School at TRACE: Tennessee Research and Creative Exchange. It has been accepted for inclusion in Doctoral Dissertations by an authorized administrator of TRACE: Tennessee Research and Creative Exchange. For more information, please contact [email protected]. To the Graduate Council: I am submitting herewith a dissertation written by Jingke Mo entitled "Fundamental Studies of Electrochemical Reactions and Microfluidics in Proton Exchange Membrane Electrolyzer Cells." I have examined the final electronic copy of this dissertation for form and content and recommend that it be accepted in partial fulfillment of the equirr ements for the degree of Doctor of Philosophy, with a major in Aerospace Engineering. Feng-Yuan Zhang, Major Professor We have read this dissertation and recommend its acceptance: Matthew M. Mench, Zhili Zhang, Lloyd M. Davis Accepted for the Council: Carolyn R. Hodges Vice Provost and Dean of the Graduate School (Original signatures are on file with official studentecor r ds.) Fundamental Studies of Electrochemical Reactions and Microfluidics in Proton Exchange Membrane Electrolyzer Cells A Dissertation Presented for the Doctor of Philosophy Degree The University of Tennessee, Knoxville Jingke Mo December 2016 Copyright © 2016 by Jingke Mo All rights reserved.
    [Show full text]
  • DNV GL Perspective- Regulations, Codes and Standards H2@Ports Workshop
    DNV GL Perspective- Regulations, Codes and Standards H2@Ports Workshop Anthony Teo 11 September 2019 1 DNV GL © 2015 11 September 2019 SAFER, SMARTER, GREENER ABOUT DNV GL - Leading the surge towards the future OIL & GAS ENERGY MARITIME • Maritime is our core industry • 11,678 ships & mobile offshore units in DNV GL class, 280.6 mGT • Strong presence in all ship segments BUSINESS DIGITAL • Dedicated ship type expert teams ASSURANCE SOLUTIONS support our clients worldwide • Among top performing class societies in Port State Control statistics • 200 Maritime offices across the world 24% 3,600 12,500 5% Market share (measured in GT) Maritime staff employees revenue invested in worldwide groupwide R&D activities 2 DNV GL © 2015 11 September 2019 Total number of ships (in operation and on order) 3 DNV GL © 2015 11 September 2019 Number of ships with batteries by ship type 4 DNV GL © 2015 11 September 2019 Towards zero emissions in shipping • HYBRID – “Vision of the Fjords” – The ship of the year 2016 – Flom-Gudvangen – Diesel hybrid 2 * 150 kW el- engines, 600 kWh batteries – Fastest ever - 14 months from contract to delivery 18.july 2016 • BATTERIES – “Future of the Fjords” – 100% electric 2 * 450 kW el- engines, 1.8 MWh batteries – Delivery 1.april 2018 • HYDROGEN – FUEL CELLS – Next generation – Increased range – Reduced weight possible – More flexible charging/bunkering Copyright Brødrene Aa DNV GL © 2015 11 September 2019 Maritime FC- Noteable Projects Zero/V - Hydrogen Fuel-Cell Coastal Research Vessel Sandia partnered with the Scripps Institution of Oceanography, the naval architect firm Glosten and the class society DNV GL to assess the technical, regulatory and economic feasibility of a hydrogen fuel-cell coastal research vessel.
    [Show full text]
  • Analyzing Micro Fuel Cells 2017
    +44 20 8123 2220 [email protected] Analyzing Micro Fuel Cells 2017 https://marketpublishers.com/r/A1C12964DEFEN.html Date: January 2017 Pages: 50 Price: US$ 500.00 (Single User License) ID: A1C12964DEFEN Abstracts The race for developing a long term solution to increasing usage of fossil fuels in the automotive sector and the rising effect of greenhouse gases has a new participant – Fuel Cell Technology. The advent of Fuel Cells though yet to achieve mass commercial successes has presented new clean opportunities for meeting energy requirements. The rising fuel prices globally and the increasing environmental concerns with the rampant applications of fossil fuels in the transportation industry is forcing the development of alternatives like the Fuel Cell. Aruvian Research’s whitepaper – Analyzing Micro Fuel Cells - analyzes the recognition, development and advancement of fuel cell technology in the scientific arena wherein it was clearly demarcated in 1900’s that fuel cells will be supplying energy and automotive power in the future. The whitepaper further provides a view on the basics of a fuel cell; its structure hardware and the working principles of a fuel cell. The whitepaper analyzes the ground breaking invention of Micro Fuel Cells and the cost constraints as well as the overall competitive market activity in this sector along with the market scenario for Micro Fuel Cells. A comprehensive outlook on the potential for Micro Fuel Cells is also provided in this whitepaper. Analyzing Micro Fuel Cells 2017 +44 20 8123 2220 [email protected] Contents A. EXECUTIVE SUMMARY B. INTRODUCTION B.1 History of Fuel Cells B.2 Design of a Fuel Cell B.3 How Does a Fuel Cell Work? B.4 Looking at the Different Parts of a Fuel Cell B.4.1 Membrane Electrode Assembly B.4.2 Catalyst B.4.3 Hardware C.
    [Show full text]
  • S). 6. Insulator N) Insulating Band Nafion 115 (PEM)
    US 2014003 0628A1 (19) United States (12) Patent Application Publication (10) Pub. No.: US 2014/0030628 A1 McMahon (43) Pub. Date: Jan. 30, 2014 (54) PHOTOCATALYTICFUEL CELL AND (52) U.S. Cl. ELECTRODE THEREOF CPC ........... H01 M 4/8657 (2013.01); HOIL 29/401 2013.O1 (71) Applicant: Fordham University, Bronx, NY (US) USPC ........................................... 1948: 33 (72) Inventor: John J. McMahon, Yonkers, NY (US) (57) ABSTRACT (73) Assignee: FORDHAM UNIVERSITY, Bronx, The invention provides a novel fuel cell, the output voltage of NY (US) which is pH dependent. The fuel cell comprises a membrane electrode assembly and a light source. In accordance with one (21) Appl. No.: 13/950,424 embodiment, the membrane electrode assembly includes i) an electrolyte; ii) an anode operably coupled to the electro (22) Filed: Jul. 25, 2013 lyte; and iii) a cathode operably coupled to the electrolyte, wherein the cathode is made from an electrically conductive Related U.S. Application Data material and has an unroughened Surface where an adsorbate (60) Provisional application No. 61/676,018, filed on Jul. material is applied. The adsorbate material used herein com 26, 2012. prises a material having semiconductor properties, and the s combination of the electrically conductive material and the Publication Classification adsorbate material is photosensitive and has catalytic proper ties. The invention also provides a novel electrode that can be (51) Int. Cl. used as a cathode in a fuel cell, a novel method for making the HOLM 4/86 (2006.01) electrode, and a novel method of generating electricity using HOIL 29/40 (2006.01) the fuel cell and/or electrode of the invention.
    [Show full text]
  • Fuel Cell Apps Draft
    PEM applications FUEL CELLS HIDEKEL MORENO LUNA HC 399 What is a fuel cell? Usually hydrogen is the fuel in conjunction with oxygen. Basic definition: Every cell generates a A device that creates amount of energy that electricity by a can be couple with chemical reaction. others to create a cell or Composed by two a stack. The purpose of electrodes are such is to make current respectively called do work outside of the anode(+) and cathode(-) system(cell), that that carried a redox powering an electric reaction. The reaction is motor. speed up by the calalyst. Types of Fuel Cells . Metal Hydride Fuel Cell . RFC-Redox . Electro-galvanic Fuel Cell . Phosphoric Acid Fuel Cell . Direct Formic Acid Fuel Cell; . Molten Carbonate Fuel Cell;MCFC DFAFC . Tubular Solid Oxide Fuel . Zinc Air Battery Celll;TSOFC . Microbial Fuel Cell . Protonic Ceramic Fuel Cell . Upflow Microbial Fuel Cell; UMFC . Direct Carbon Fuel Cell . Regenerative Fuel Cell . Planar Solid Oxide Fuel Cell . Direct Bromohydride Fuel Cell . Enzymatic Biofuel Cells. Alkaline Fuel Cell . Direct Methanol Fuel Cell . Reformed Methanol Fuel Cell . Direct-Ethanol Fuel Cell . Proton Exchange Membrane Fuel Cell; PEM Working Fuel Cell Name Electrolyte Qualified Power (W) Electrical efficiency Status Temperature (°C) Aqueous alkaline solution above -20 Commercial/Researc Metal hydride fuel cell (e.g.potassium (50% Ppeak @ 0°C) h hydroxide) Aqueous alkaline Commercial/Researc Electro-galvanic fuel cell solution (e.g., under 40 h potassium hydroxide) Direct formic acid fuel cell Polymer
    [Show full text]
  • Hydrogen and Fuel Cells in Ports and Shipping Workshop
    Hydrogen and Fuel Cells in Ports and Shipping Workshop The Path to Hydrogen Shipping Gopal Nair/ Anthony Teo 09 October 2018 1 DNV GL © 2015 09 October 2018 SAFER, SMARTER, GREENER Our vision: global impact for a safe and sustainable future MARITIME OIL & GAS ENERGY BUSINESS DIGITAL ASSURANCE SOLUTIONS TECHNOLOGY & RESEARCH 2 DNV GL © 2015 09 October 2018 Global reach – local competence 150+ 100+ 100,000+ 12,500 years countries customers employees 3 DNV GL © 2015 09 October 2018 Industry consolidation 4 DNV GL © 2015 09 October 2018 DNV GL Americas 1600 employees and 75 offices in North America St. John’s Vancouver Calgary Seattle Montreal Halifax Portland Helena Ottawa Corvallis Portland Madison Okemos Peterborough Burlington, Lowell, Woburn Wheaton Clarklake Detroit Middletown Cotati Reno New York, Albany, Rochester, Troy San Francisco Chicago Columbus San Ramon Lyndhurst, Mahwah Oakland Fort Wayne Chalfont, Allentown, Colmar, Mechanicsburg Cincinnati Santa Monica Muskogee Washington DC Las Vegas Arlington, Fairfax Norfolk Anaheim Albuquerque Long Beach Nashville Raleigh Phoenix San Diego Atlanta TEST Tucson Dallas Lafayette New Orleans Jacksonville Austin Houma Houston Miami Reynosa Tamaulipas San Juan Queretaro Mexico City Ciudad del Carmen Veracruz Villahermosa Port of Spain Curacao Caracas Panama City DNV GL © 2015 09 October 2018 Agenda 1.Intro- Motivation Drivers 2.Technology overview 3.Regulation update 4.Maritime Fuel Cell Development /Projects 6 DNV GL © 2015 09 October 2018 Introduction Motivation . Improvement of Ship Energy Efficiency . Reduction of emissions to air . Reaching insignificant noise and vibration level Driver . Environmental regulations and initiatives to – Increase efficiency of ship operation – Reduce NOX, SOX, CO2 and particle (PM) emissions 7 DNV GL © 2015 09 October 2018 Enhancement of Ship‘s emissions, efficiency and comfort .
    [Show full text]
  • Frank Gonzatti
    UNIVERSIDADE FEDERAL DE SANTA MARIA CENTRO DE TECNOLOGIA PROGRAMA DE PÓS-GRADUAÇÃO EM ENGENHARIA ELÉTRICA Frank Gonzatti FUNDAMENTOS PARA CONCEPÇÃO, CONTROLE E AUTOMAÇÃO DE UMA PLANTA ARMAZENADORA DE ENERGIA UTILIZANDO HIDROGÊNIO Santa Maria, RS Frank Gonzatti FUNDAMENTOS PARA CONCEPÇÃO, CONTROLE E AUTOMAÇÃO DE UMA PLANTA ARMAZENADORA DE ENERGIA UTILIZANDO HIDROGÊNIO Tese de doutorado apresentada ao Programa de Pós-Graduação em Engenharia Elétrica, Área de Concentração em Processamento de Energia, da Universidade Federal de Santa Maria (UFSM, RS), como requisito parcial para obtenção do título de Doutor em Engenharia Elétrica. Orientador: Felix Alberto Farret, PhD Santa Maria, RS 2017 © 2017 Todos os direitos autorais reservados a Frank Gonzatti. A reprodução de partes ou do todo deste trabalho só poderá ser feita mediante a citação da fonte. Endereço: Rua Nery Kurtz, n. 202, Bairro Camobi, Santa Maria, RS. CEP: 97110-520 Fone (0xx)55 32170499; E-mail: [email protected] DEDICATÓRIA Dedico esta tese à minha esposa, Cíntia, pelo apoio, amor e dedicação. Aos meus filhos, Franco e Enrico, pelos seus abraços e apoio diferenciado e especial. Dedico, também, aos meus pais, Lourdes e Iracy (in memoriam), que são exemplos de trabalho, dedicação, honestidade e perseverança. E, finalmente, dedico aos meus antepassados, os quais através dos seus esforços e sacrifícios, permitiram-me desfrutar de um mundo melhor que a eles foi oferecido. AGRADECIMENTOS A elaboração desta tese, que finaliza a última etapa da formação acadêmica (doutorado), foi concretizada graças à colaboração, estímulo e empenho de diversas pessoas.. A todos que, direta ou indiretamente, contribuíram para que esta tarefa se tornasse uma realidade quero manifestar os meus sinceros agradecimentos, de uma forma especial: - ao meu ‘coorientador’, que sempre esteve do meu lado e me orientou nos momentos mais difíceis da minha vida, DEUS; - aos meus pais e irmãos, Fernando, Flávio, Simone e Silvana que de um modo ou outro me ajudaram durante a minha jornada, do vestibular ao doutorado; - ao Prof.
    [Show full text]
  • The Use of Metal Hydrides in Fuel Cell Applications☆ ⁎ Mykhaylo V
    Progress in Natural Science: Materials International (xxxx) xxxx–xxxx HOSTED BY Contents lists available at ScienceDirect Progress in Natural Science: Materials International journal homepage: www.elsevier.com/locate/pnsmi Original Research The use of metal hydrides in fuel cell applications☆ ⁎ Mykhaylo V. Lototskyya, , Ivan Tolja,b, Lydia Pickeringa, Cordellia Sitaa, Frano Barbirb, Volodymyr Yartysc a HySA Systems Competence Centre, South African Institute for Advanced Materials Chemistry (SAIAMC), University of the Western Cape, Bellville, South Africa b University of Split, Faculty of Electrical Engineering, Mechanical Engineering and Naval Architecture, Department of Thermodynamics and Heat Engines, Split, Croatia c Institute for Energy Technology, Kjeller, Norway ARTICLE INFO ABSTRACT Keywords: This paper reviews state-of-the-art developments in hydrogen energy systems which integrate fuel cells with Fuel cells metal hydride-based hydrogen storage. The 187 reference papers included in this review provide an overview of Hydrogen storage all major publications in the field, as well as recent work by several of the authors of the review. The review Metal hydrides contains four parts. The first part gives an overview of the existing types of fuel cells and outlines the potential of Thermal integration using metal hydride stores as a source of hydrogen fuel. The second part of the review considers the suitability System development and optimisation of different metal hydrides based on their energy efficient thermal integration with fuel cells. The performances of metal hydrides are considered from the viewpoint of the reversible heat driven interaction of the metal hydrides with gaseous H2.Efficiencies of hydrogen and heat exchange in hydrogen stores to control H2 charge/discharge flow rates are the focus of the third section of the review and are considered together with metal hydride – fuel cell system integration issues and the corresponding engineering solutions.
    [Show full text]
  • Reversible Electrochemical Storage of Hydrogen in Activated Carbons from Victorian Brown Coal
    REVERSIBLE ELECTROCHEMICAL STORAGE OF HYDROGEN IN ACTIVATED CARBONS FROM VICTORIAN BROWN COAL AND OTHER PRECURSORS A thesis submitted in fulfilment of the requirements for the degree of Doctor of Philosophy Amandeep Singh Oberoi Master of Technology in Thermal Engineering Bachelor of Technology in Mechanical Engineering Diploma in Mechanical Engineering School of Aerospace Mechanical and Manufacturing Engineering College of Science Engineering and Health RMIT University November 2015 Declaration I certify that except where due acknowledgement has been made, the work is that of the author alone; the work has not been submitted previously, in whole or in part, to qualify for any other academic award; the content of the thesis is the result of work which has been carried out since the official commencement date of the approved research program; any editorial work, paid or unpaid, carried out by a third party is acknowledged; and, ethics procedures and guidelines have been followed. Amandeep Singh Oberoi 27 November 2015 Doctor of Philosophy ACKNOWLEDGMENT ACKNOWLEDGMENTS I would like to thank my senior supervisor, Professor John Andrews, for sharing his ideas, knowledge, and insights. I am very grateful for his tireless efforts in providing guidance, feedback and constant motivation during my candidature. I would like to express my gratitude to my associate supervisor, Dr Bahman Shabani (RMIT University), for constantly boosting up my morale and giving new research ideas. Many thanks for my second associate supervisor, Dr Biddyut Paul for helping me in final experiments on proton flow battery. A top-up scholarship for research from Brown Coal Innovation Australia (BCIA) is gratefully acknowledged.
    [Show full text]