DOCSLIB.ORG

Radioactive Waste Management Status and Trends - Issue #4

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Radioactive Waste Management Status and Trends - Issue #4 Radioactive Waste Management Status and Trends - Issue #4 February 2005 IAEA/WMDB/ST/4 Last Modified:2005-01-31 IAEA-WMDB-ST-4 Table of Contents Foreword .......................................................................................................................................9 1 Document Overview ...................................................................................................................10 2 National Systems for Radioactive Waste Management...........................................................13 2.1 The Joint Convention on the Safety of Spent Fuel Management and on the Safety of Radioactive Waste Management ......................................................................................................13 2.2 Scorecard for National Systems for Radioactive Waste Management .............................................18 2.3 Ongoing Initiatives Between Member States ...................................................................................19 2.4 Topical Issue: Proposed European Council Directive (EURATOM) on the Implementation of National Systems ..............................................................................................................................19 2.5 Topical Issue – Update: Indicator of Sustainable Development for Radioactive Waste Management .....................................................................................................................................19 3 The Classification of Radioactive Waste ..................................................................................23 3.1 Exclusion, Exemption and Clearance ...............................................................................................24 3.2 Topical Issue: Radioactive Waste Classification within the IAEA’s Common Framework Initiative............................................................................................................................................26 4 Sources of Radioactive Waste....................................................................................................29 4.1 Uranium Mining and Mill (UMM) Wastes.......................................................................................29 4.1.1 Topical Issue – UMM Tailings Reclamation in the USA ..................................................... 30 4.2 Naturally Occurring Radioactive Material (NORM) Waste.............................................................33 4.3 Very Low Level Radioactive Waste (VLLW)..................................................................................35 5 Decommissioning of Nuclear Facilities .....................................................................................37 5.1 Reuse of Decommissioned Sites.......................................................................................................38 5.1.1 Policy Issues in Planning for Redevelopment....................................................................... 38 5.1.2 Social Factors........................................................................................................................ 40 5.1.3 Conclusions........................................................................................................................... 40 5.2 Recent Decommissioning Experiences.............................................................................................40 5.2.1 Rocky Flats Site, USA .......................................................................................................... 41 5.2.2 Fermi 1 NPP, USA (status as reported October 2003).......................................................... 42 5.2.3 Rancho Seco NPP, USA ....................................................................................................... 43 5.2.4 UK NPPs............................................................................................................................... 44 5.2.5 French NPPs ......................................................................................................................... 45 5.2.6 KKN Facility, Germany........................................................................................................ 46 5.3 Selected Organizational Developments............................................................................................47 5.3.1 Future Liabilities Management in the UK ............................................................................ 47 5.3.2 Revised Decommissioning Strategy in France ..................................................................... 47 5.4 Record Keeping for Decommissioning.............................................................................................49 6 Predisposal Management of Radioactive Waste......................................................................55 6.1 Waste Minimization .........................................................................................................................55 6.2 Waste Characterization.....................................................................................................................59 6.2.1 Topical Issue: Innovative Technologies for Characterization of Underground Piping in Decommissioning Projects ............................................................................................... 62 6.3 Waste Processing..............................................................................................................................65 Page 2 of 191 Last Modified:2005-01-31 IAEA-WMDB-ST-4 6.3.1 Examples of Waste Processing ............................................................................................. 66 6.3.1.1 Membrane Technologies........................................................................................... 66 6.3.1.2 Ion Exchange Technologies...................................................................................... 68 6.3.1.3 Organic and Chemically Toxic Waste Processing.................................................... 72 6.3.2 Collection and Dissemination of Radwaste Processing Information by the IAEA............... 72 6.4 Waste Storage...................................................................................................................................74 6.4.1 Examples of Radioactive Waste Storage .............................................................................. 74 6.4.1.1 Examples of Combined Storage/Disposal Facilities................................................. 74 6.4.2 Topical Issue - Update: Long Term Storage......................................................................... 76 6.4.3 Collection and Dissemination of Radwaste Storage Information by the IAEA.................... 80 7 Radioactive Waste Disposal.......................................................................................................83 7.1 Emerging Issues................................................................................................................................83 7.1.1 Safeguards............................................................................................................................. 84 7.1.2 Long Term Monitoring ......................................................................................................... 86 7.2 Topical Issue: Multinational/Regional Concepts for Waste Management Facilities ........................87 7.3 Topical Issue: Impact of Innovative Nuclear Technologies on Radioactive Waste Management and Decommissioning.................................................................................................90 7.3.1 INPRO .................................................................................................................................. 91 7.3.2 Generation IV International Forum (GIF)............................................................................. 92 7.4 Topical Issue: Societal Issues Related to Geological Repositories...................................................93 7.5 Topical Issue: RD&D in Geological Disposal (Canada, Czech Republic, Finland and Japan) ........94 7.6 Topical Issue: Closure of a Surface Repository - La Manche ........................................................102 7.7 Topical Issue: Upgrading of Near Surface Disposal Facilities...........................................................105 7.8 Collection and Dissemination of Radwaste Disposal Information by the IAEA............................106 8 Examples of Existing Repositories ..........................................................................................112 8.1 The VLLW Repository in Morvilliers, France ...............................................................................112 8.2 The Drigg Low Level Waste Disposal Site (UK)...........................................................................114 8.3 The Clive Low Level and Mixed Waste Facility (Utah, USA).......................................................115 8.4 Richard Repository – Underground Caverns (Czech Republic).....................................................117 9 The Management of Spent/Disused Sealed Radioactive Sources .........................................121 9.1 Topical Issue: Return of Sources to Suppliers................................................................................122 9.1.1 Background......................................................................................................................... 122 9.1.2 Technical Aspects ...............................................................................................................122
Load more

Recommended publications
  • The Compelling Facts About Plastics 2009 an Analysis of European Plastics Production, Demand and Recovery for 2008
    The Compelling Facts About Plastics 2009 An analysis of European plastics production, demand and recovery for 2008 1 2008 – At a glance Global production fell back in 2008 to 245 million tonnes from 260 in 2007 on the back of the financial crisis. The plastics industry experienced a dramatic 3rd and 4th quarter triggered by the economic crisis – more for those serving capital markets and less in daily consumables. Europe produced 60 million tonnes and remained a major region contributing about 25% of the global total. The plastics industry – plastic producers, converters and machine manufacturers – employed 1.6 million people and many times more in industries depending on plastics for their business. The plastics producers and converters also contributed together around 13 billion € in trade surplus to EU27 which helped to reduce the 242 billion € trade deficit for the whole industry in 2008. Demand by European converters fell back 7.5% to 48.5 million tonnes in 2008. Waste generation increased by just under 1%. Both recycling and energy recovery increased to drive total recovery rate for plastics to 51.3% and disposal at landfill down to 48.7% thereby opening up a gap of 2.6%. Recycling increased by 4.3% over 2007, a lower year-on-year increase than in recent years, reflecting the severe impact of the economic crisis on this sector. Energy recovery increased 3.6% over 2007. Seven of the EU Member States plus Norway and Switzerland recover more than 80% of their used plastics. These countries adopt an integrated resource management strategy using a range of complementary options to address each different waste stream with the best environmental and economic option.
    [Show full text]
  • Improving Resource Efficency to Combat Marine Plastic Litter
    Improving Resource Efficency to Combat Marine Plastic Litter Issue Brief Prepared by the OECD as input for the 2019 G20 Ministerial Meeting on Energy Transitions and Global Environment for Sustainable Growth January 2019 Organisation for Economic Co-operation and Development │ 2 1. Introduction 1.1. Persistent growth in resource use is creating widespread environmental damage: marine plastics litter is a prominent example 1. Recent decades have seen unprecedented growth in demand for natural resources and the materials derived from them. Around 80 billion tonnes of minerals, fossil fuels, and biomass were fed into the global economy in 2015 and, in the absence of policy action, this will increase with ongoing population growth and improving standards of living. Modelling undertaken by the OECD suggests that resource use will more than double by 2060 under business as usual.1 2. The extraction, use, and disposal of natural resources at these scales is creating significant environmental pressure, with serious consequences for ecosystem health, economic growth, and human well-being. Biodiversity loss and climate change are perhaps the two most high-profile examples. However, nowhere are the damages associated with rapidly growing material use more visible than in the case of plastics pollution, which is now ubiquitous across much of the Earth’s surface. Plastic is present in all the world’s ocean basins, including around remote islands, the poles and in the deep seas, and an additional 5 to 13 million tonnes are estimated to be introduced every year to the oceans.2 This material will only decompose over the course of hundreds, if not thousands, of years.
    [Show full text]
  • Waste Generated and Treated in Europe
    2003 EDITION Waste generated and treated in Europe Data 1990-2001 THEME 8 Environment EUROPEAN and DETAILED TABLES DETAILED COMMISSION 8energy Europe Direct is a service to help you find answers to your questions about the European Union New freephone number: 00 800 6 7 8 9 10 11 A great deal of additional information on the European Union is available on the Internet. It can be accessed through the Europa server (http://europa.eu.int). Luxembourg: Office for Official Publications of the European Communities, 2003 ISBN 92-894-6355-4 © European Communities, 2003 Acknowledgements: This publication was prepared under the responsibility of Rainer Muthmann, Head of Unit E5, Environment and sustainable development, Eurostat Publication editors: Karin Jordan, Eurostat Christian Heidorn, Eurostat Consultants: Marta de Medina Rosales Thierry Leroy National Statistical Institutes: We would like to thank all the colleagues from the National Statistical Institutes that have contributed with information. Further information: Karin Jordan Tel.: ++ 352 4301 32308 Fax: ++ 352 4301 30039 E-mail: [email protected] Christian Heidorn Tel.: ++ 352 4301 35271 Fax: ++ 352 4301 30039 E-mail: [email protected] The views expressed in this publication are those of the authors and do not necessarily reflect the opinion of the European Commission. 4 Waste generated and treated in Europe Table of contents Summary........................................................................................................................................
    [Show full text]
  • Improving Plastics Management: Trends, Policy Responses, and the Role of International Co-Operation and Trade
    Improving Plastics Management: Trends, policy responses, and the role of international co-operation and trade POLICY PERSPECTIVES OECD ENVIRONMENT POLICY PAPER NO. 12 OECD . 3 This Policy Paper comprises the Background Report prepared by the OECD for the G7 Environment, Energy and Oceans Ministers. It provides an overview of current plastics production and use, the environmental impacts that this is generating and identifies the reasons for currently low plastics recycling rates, as well as what can be done about it. Disclaimers This paper is published under the responsibility of the Secretary-General of the OECD. The opinions expressed and the arguments employed herein do not necessarily reflect the official views of OECD member countries. This document and any map included herein are without prejudice to the status of or sovereignty over any territory, to the delimitation of international frontiers and boundaries and to the name of any territory, city or area. For Israel, change is measured between 1997-99 and 2009-11. The statistical data for Israel are supplied by and under the responsibility of the relevant Israeli authorities. The use of such data by the OECD is without prejudice to the status of the Golan Heights, East Jerusalem and Israeli settlements in the West Bank under the terms of international law. Copyright You can copy, download or print OECD content for your own use, and you can include excerpts from OECD publications, databases and multimedia products in your own documents, presentations, blogs, websites and teaching materials, provided that suitable acknowledgment of OECD as source and copyright owner is given.
    [Show full text]
  • Bio-Waste in Europe — Turning Challenges Into Opportunities
    EEA Report No 04/2020 Bio-waste in Europe — turning challenges into opportunities ISSN 1977-8449 EEA Report No 04/2020 Bio-waste in Europe — turning challenges into opportunities Cover design: EEA Cover photo: © Brendan Killeen Layout: Rosendahls a/s Legal notice The contents of this publication do not necessarily reflect the official opinions of the European Commission or other institutions of the European Union. Neither the European Environment Agency nor any person or company acting on behalf of the Agency is responsible for the use that may be made of the information contained in this report. Brexit notice The withdrawal of the United Kingdom from the European Union did not affect the production of this report. Data reported by the United Kingdom are included in all analyses and assessments contained herein, unless otherwise indicated. Copyright notice © European Environment Agency, 2020 Reproduction is authorised provided the source is acknowledged. More information on the European Union is available on the Internet (http://europa.eu). Luxembourg: Publications Office of the European Union, 2020 ISBN 978-92-9480-223-1 ISSN 1977-8449 doi:10.2800/630938 European Environment Agency Kongens Nytorv 6 1050 Copenhagen K Denmark Tel.: +45 33 36 71 00 Internet: eea.europa.eu Enquiries: eea.europa.eu/enquiries Contents Contents Authors and acknowledgements .............................................................................................. 4 Key messages .............................................................................................................................
    [Show full text]
  • Tracking the Global Generation and Exports of E-Waste. Do Existing 2 Estimates Add Up? 3
    1 Tracking the global generation and exports of e-waste. Do existing 2 estimates add up? 3 4 Knut Breivik 1,2,*, James M. Armitage 3, Frank Wania 3, Kevin C. Jones 4 5 1 Norwegian Institute for Air Research, Box 100, NO-2027 Kjeller, Norway 6 2 Department of Chemistry, University of Oslo, Box 1033, NO-0315 Oslo, Norway 7 3 Department of Physical and Environmental Sciences, University of Toronto Scarborough, 1265 Military 8 Trail, Toronto, Ontario, Canada, M1C 1A4 9 4 Lancaster Environment Centre, Lancaster University, Lancaster, LA1 4YQ, UK 10 *Corresponding author: Norwegian Institute for Air Research, Box 100, NO-2027, Kjeller, Norway, tel.: 11 +47 63 89 80 00; e-mail: [email protected] 12 13 Abstract 14 15 The transport of discarded electronic and electrical appliances (e-waste) to developing regions has 16 received considerable attention, but it is difficult to assess the significance of this issue without a 17 quantitative understanding of the amounts involved. The main objective of this study is to track the 18 global transport of e-wastes by compiling and constraining existing estimates of the amount of e-waste 19 generated domestically in each country MGEN, exported from countries belonging to the Organization for 20 Economic Cooperation and Development (OECD) MEXP, and imported in countries outside of the OECD 21 MIMP. Reference year is 2005 and all estimates are given with an uncertainty range. Estimates of MGEN 22 obtained by apportioning a global total of ~35,000 kt (range 20,000-50,000 kt) based on a nation’s gross 23 domestic product agree well with independent estimates of MGEN for individual countries.
    [Show full text]
  • Global Trade in Plastics: Insights from the First Life-Cycle Trade Database
    DECEMBER 2020 UNCTAD Research Paper No. 53 UNCTAD/SER.RP/2020/12 Global trade in plastics: insights from the first Diana Barrowclough life-cycle trade database Senior Economist Division on Abstract Globalisation and Development This paper presents the first attempt to quantify and map global trade flows Strategies, UNCTAD across the entire life cycle of plastics – from raw inputs to final plastic products [email protected] as well as waste. It draws on a new prototype database created by UNCTAD and the Graduate Institute, which draws on a granular examination of official trade classifications and compiles data on a far broader set of plastics-related inputs and products than those commonly used. This paper finds that trade Carolyn Deere is immense, with exports of primary, intermediate and final forms of plastics summing up to more than US$1 trillion in 2018 or 5% of the total value of Birkbeck Senior Researcher global trade – almost 40% higher than previous estimates. This paper also Global Governance finds that plastics trade is multifaceted and complex. While some key Centre, countries dominate trade across the plastics value chain, a wide diversity of Graduate Institute countries are active as both importers of plastic products and exporters, using [email protected] plastic as a means to participate in global value chains and to add value to exports. Julien Christen Research Associate At the same time, while this original database captures a range of neglected Graduate Institute [email protected] trade flows across the plastics life cycle, it is a prototype and still provides an incomplete picture, in part due to the methodological challenges of quantifying the value and volume of plastics ‘hidden’ in millions of products traded internationally (e.g., plastics embedded in products or used in pre-packaged products).
    [Show full text]
  • MATERIALS INNOVATION for the GLOBAL CIRCULAR ECONOMY and SUSTAINABLE SOCIETY Council of Europe, Strasbourg — 20Th & 21St November 2017
    VI WORLD MATERIALS SUMMIT MATERIALS INNOVATION FOR THE GLOBAL CIRCULAR ECONOMY AND SUSTAINABLE SOCIETY Council of Europe, Strasbourg — 20th & 21st November 2017 INCLUDING THE FORUM FOR NEXT GENERATION RESEARCHERS Council of Europe – European Youth Centre, Strasbourg, France 18–19 November 2017 Chaire UNESCO << Sciences et Ingénierie des matériaux: énergie environnement santé >> VI WORLD MATERIALS SUMMIT b MATERIALS INNOVATION FOR THE GLOBAL CIRCULAR ECONOMY AND SUSTAINABLE SOCIETY MATERIALS INNOVATION FOR THE GLOBAL CIRCULAR ECONOMY AND SUSTAINABLE SOCIETY Council of Europe, Strasbourg – 20th & 21st November 2017 Chaire UNESCO << Sciences et Ingénierie des matériaux: énergie environnement santé >> VI WORLD MATERIALS SUMMIT Including The Forum for Next Generation Researchers 18-19 November 2017 Council of Europe – European Youth Centre, Strasbourg, France Africa Australia Brazil India Japan Korea Mexico Russia Singapore Taiwan i VI WORLD MATERIALS SUMMIT © 2018 by European Materials Research Society Copyright pertains to content other than that obtained from public domain sources. Excerpts of content may be reproduced subject to full acknowledgment of the source. Illustrations from cited sources may have been modified for clarity. Published by: European Materials Research Society 23 Rue du Loess BP 20 – 67037 Strasbourg Cedex 02, France [email protected] Production management: Cycloid Fathom Technical Publishing, Illinois, USA M. Nelson (graphic design), S. Zillman (copy editing) Printed in: Strasbourg, France Printer: Éclair Reproduction First Printing, 2018 CONTRIBUTING EDITORS COMMON ABBREVIATIONS John Blizzard European Materials Research Society AHSS advanced high-strength George Crabtree Argonne National Laboratory steels Osvaldo N. Oliveira, Jr. Universidade de São Paulo CCS carbon capture and sequestration (or storage) Rod Ewing Stanford University CNG compressed natural gas Lan Fu Australian National University CNT carbon nanotube Andrew B.
    [Show full text]
  • No Time to Waste: Tackling the Plastic Pollution Crisis Before It's Too Late
    NO TIME TO WASTE Tackling the plastic pollution crisis before it’s too late NO TIME TO WASTE Tackling the plastic pollution crisis before it’s too late A report by Tearfund, Fauna & Flora International (FFI), WasteAid and The Institute of Development Studies (IDS). Written by Mari Williams, Rich Gower and Joanne Green (Tearfund) with support from Elisabeth Whitebread (FFI), Zoë Lenkiewicz (WasteAid) and Dr Patrick Schröder (IDS). Many thanks to Dr Abigail Entwistle, Dilyana Mihaylova (FFI), Hannah Corbett (IDS), Paul Cook, Melissa Barnston, Ann Hallam, Julia Kendal, Ben Osawe, Simone Vieira (Tearfund), Mike Bird (WIEGO), Professor David Wilson, Dr Stephen McCauley, Tim Brewer and Dr Wolf‑Peter Schmidt for their contributions and comments. Designed by Wingfinger Cover photo: Hazel Thompson/Tearfund Tearfund is a Christian relief and development agency working with partners and local churches to bring whole‑life transformation to the poorest communities. Fauna & Flora International (FFI) is the world’s oldest international wildlife conservation organisation. Our mission is to conserve threatened species and ecosystems worldwide, choosing solutions that are sustainable, based on sound science, and which take into account human needs. WasteAid shares recycling skills around the world: creating green jobs, improving children’s health, and keeping plastic out of the oceans. The Institute of Development Studies (IDS) is a global research and learning organisation for equitable and sustainable change. © Tearfund 2019 Published by Tearfund, 100 Church Road, Teddington, TW11 8QE, United Kingdom learn.tearfund.org +44 (0) 20 3906 3906 [email protected] twitter.com/tearfundlearn facebook.com/tearfundlearn Enquiries about printed and electronic (PDF) copies of this manual should be sent to [email protected] ENDORSEMENTS This report is aptly named for the pressing need to tackle the problem of plastic pollution, now.
    [Show full text]
  • Plastic Recycling Practices in Vietnam and Related Hazards for Health and the Environment
    International Journal of Environmental Research and Public Health Article Plastic Recycling Practices in Vietnam and Related Hazards for Health and the Environment Stefan Salhofer 1,* , Aleksander Jandric 1, Souphaphone Soudachanh 1, Thinh Le Xuan 2,3 and Trinh Dinh Tran 4 1 Institute of Waste Management, University of Natural Resources and Life Sciences, 1190 Vienna, Austria; [email protected] (A.J.); [email protected] (S.S.) 2 Vietnam Cleaner Production Centre Co. Ltd, Hanoi 11413, Vietnam; [email protected] 3 School of Environmental Science and Technology, Hanoi University of Science and Technology, Hanoi 11615, Vietnam 4 Faculty of Chemistry, University of Science, Vietnam National University, No. 19 Le Thanh Tong Street, Hanoi 11021, Vietnam; [email protected] * Correspondence: [email protected] Abstract: Waste plastic today is a global threat. The rapid increase in global production and use has led to increasing quantities of plastics in industrial and municipal waste streams. While in industrialized countries plastic waste is taken up by a waste management system and at least partly recycled, in low-income countries adequate infrastructure to collect and treat waste adequately is often not in place. This paper analyzes how plastic waste is handled in Vietnam, a country with a fast-growing industry and growing consumption. The recycling of plastic waste typically takes place in an informal context. To demonstrate this in more detail, two rural settlements—so-called craft villages—are taken as case studies. Technologies and processes for plastic recycling are described Citation: Salhofer, S.; Jandric, A.; and related risks for human health and the environment are shown, as well as the potential for the Soudachanh, S.; Le Xuan, T.; Tran, T.D.
    [Show full text]
  • The Environmental Impact of a Municipal Solid Waste Incinerator: 15 Years of Monitoring
    Waste Management and The Environment VII 305 The environmental impact of a municipal solid waste incinerator: 15 years of monitoring E. Venturini1, I. Vassura1,2, F. Passarini1,2, E. Bernardi2, L. Ciacci3, L. Ferroni1 & L. Morselli1,2 1Interdepartmental Centre for Industry Research in Energy and Environment, University of Bologna, Italy 2Department of Industrial Chemistry “Toso Montanari”, University of Bologna, Italy 3Yale University, Center for Industrial Ecology, USA Abstract A Municipal Solid Waste Incinerator located in Rimini province (Italy) has been monitored for 15 years in order to assess its environmental impact. An integrated environmental monitoring system was designed and implemented over the years. Furthermore, the impact assessment was supported by other tools, such as life cycle analysis (LCA) and risk assessment. In order to fulfil new rules, over the years, the plant underwent several revamping processes. The environmental monitoring was activated in 1997 an involved the analysis of several matrices: soil, atmospheric deposition, vegetation and particulate airborne matter. Based on the obtained results, the monitoring evolved and the sampling sites, analites, matrices and/or sampling techniques were modified. LCA application to the plant was carried out both to investigate the contribution of the incinerator to different environmental categories and to evaluate the effect of the revamping process on plant impacts. In order to assess health effects connected to plant activity, risk assessment applied to air emissions was evaluated for the period 1997–2006. All the study results show that incineration plant emissions do not appreciably affect the contaminant load in the study area. Source apportionment techniques demonstrated that the main sources in the study area are vehicular traffic and regional contribution.
    [Show full text]
  • Plastic Waste
    Global recycling markets: plastic waste A story for one player – China A report from the ISWA Task Force on Globalisation and Waste Management Author : Costas Velis fUELogy ® Prepared by: FUELogy on behalf of ISWA Final formatting and typesetting: Date: September 2014 Author: Dr Costas Velis – contact: [email protected] Cite as: Velis C.A. (2014). Global recycling markets - plastic waste: A story for one player – China. Report prepared by FUELogy and formatted by D-waste on behalf of International Solid Waste Association - Globalisation and Waste Manage- ment Task Force. ISWA, Vienna, September 2014. Acknowledgements We would like to thank Ms Sihui Zhou for relevant research conducted at Imperial College London as part of their MSc The- sis and Prof David Wilson and Prof Chris Cheeseman for co-supervising. We are grateful to CIWM and Defra UK for partly funding Ms Sihui Zhou under their Masters Support Programme, and for access to information. The ISWA Globalisation and Waste Management Task Force, ISWA STC and Board members and ISWA individual members and organisations who provided valuable feedback and proofread various earlier versions of this document. Ms Sophie Richard of WRAP, and staff at Valpak and Closed Loop Recycling who gave much valued support. Our appreciation also goes to Mr Ed Kosior, Honorary Prof at Brunel University and Mr Mike Jefferson of Verde Recycling Solutions of who took time out of their busy schedules to share their valuable experience and opinions. We are grateful to British Plastics Federation (BPF) for providing the op- portunity to present an early version during REPLAST 2013.
    [Show full text]