Realising Transition Pathways

Whole systems analysis for a UK more electric low carbon

energy futureFinal Dissemination Conference

Supported by

www.realisingtransitionpathways.org.uk

RANSITIONREALISING

26th February 2016Coin Street Neighbourhood Centre South Bank, London

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www.realisingtransitionpathways.org.uk

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Conference Programme

9.30 – 9.50 Registration and refreshments Max Nasatyr Room

9.50 – 10.00 Welcome and Introduction Max Nasatyr Room

10.00 – 10.30 KEYNOTE: “The Future is Now” Max Nasatyr Room

The Rt. Hon the Lord Deben

10.30 – 11.15 “Realising Transition Pathways for a low carbon Max Nasatyr Room

energy system in the UK: Challenges and Opportunities” Prof Peter Pearson, Prof Geoffrey Hammond, Prof Matthew

Leach, Prof Tim Foxon and Dr Stuart Galloway

11.15 – 11.40 REFRESHMENTS Lil Patrick / Fred Miller

11.40 – 12.55 Panel Session: Implications of Realising Transition Max Nasatyr Room

Pathways Research. Chaired by Dr James Smith; Panellists include: Rebecca Willis; Nick Smailes; Jo Coleman;Dr Jenny Cooper and Dr David Joffe

12.55 – 14.00 LUNCH Lil Patrick / Fred Miller

14.00 – 14.55 Parallel sessions 1-3

1. 1. Exploring the Pathways Max Nasatyr Room

2. 2. Costing the Pathways South Bank Rooms

3. 3. Energy Technology Assessment and Whole Systems Appraisal South Bank Rooms

14.55 – 15.10 AFTERNOON TEA South Bank / Lil Patrick

15.10 – 16.00 Parallel sessions 4-6

4. Technical Evaluation of the Pathways South Bank Rooms

5. Qualitative and Quantitative Aspects of the Pathways Max Nasatyr Room

6. Insights from historical transitions and current transitions South Bank Rooms

16.00 – 16.30 Panel Session: Interdisciplinary working to enable Max Nasatyr Room future energy transitions. Chaired by Prof Peter Taylor; Panellists include: Prof Patrick Devine-Wright; Dr Neil Bateman; Beth Robertson and Dr Jason Chilvers

16.30 CLOSING REMARKS

Parallel sessions 1. Exploring the Pathways

(Chair: Prof Tim Foxon, University of Sussex)• “Facilitating interdisciplinary learning among the RTP models.” - Dr Evelina Trutnevyte, ETH Zurich• “Exploring Thousand Flowers: Headline messages for a civic energy future.” - Dr Stephen Hall,

University of Leeds• “Options, Choices, Actions.”- Dr Jo Coleman, Director, Strategy Development, ETI

2. Costing the Pathways (Chair: Dr Tera Allas, Visiting Fellow, McKinsey Global Institute)

• “Economic analysis of the Pathways” - Dr Francis Li, University College London • “Role and value of demand side flexibility in facilitating cost effective transition to low carbon energy

system.” - Dr Danny Pudjianto, Imperial College London• “The uncertain costs of the future transition.” - Prof Richard Green, Imperial College London

3. Energy Technology Assessment and Whole Systems Appraisal

(Chair: Dr Garry Staunton, GSA)• “Energy technology assessment of disruptive low carbon systems.”- Prof Geoffrey Hammond,

University of Bath• “Environmental life cycle assessment of the UK transition pathways.” - Áine O’Grady, University of

Bath• “Full LCA of wave energy conversion.” - Prof Gareth Harrison, University of Edinburgh

4. Technical Evaluation of the Pathways (Chair: Dr Adam Morton, Rolls Royce plc)

• “Hourly Time-Step Analysis of Grid Balancing.” - Dr John Barton, Loughborough University • “Hybrid Energy System Analysis.” - Dr Stuart Galloway, University of Strathclyde

5. Qualitative and Quantitative Aspects of the Pathways (Chair: Dr Jeffery Hardy, Ofgem)• “Interdisciplinary experiments in energy modelling: co-producing social science and engineering in-

sights on energy demand.” - Dr Jason Chilvers, UEA• “The effects of thermal comfort expectations on the electricity supply system” - Dr Murray Thomson,

Loughborough University• “Modelling how people use energy: progress on bridging the interdisciplinary gap” - Dr Eoghan McKen-

na, Loughborough University

6. Insights from Historical Transitions and Current Transitions (Chair: Dr Caroline Kuzemko, University of Exeter)• “Actors, governance & realising transitions: Insights from history.” - Prof Peter Pearson, Imperial Col-

lege London• “Drivers and constraints to low carbon investment.” - Prof Tim Foxon, University of Sussex• “A relational approach to energy system transitions” – Dr Noel Longhurst, UEA•

All presentations will be made available for electronic download from the Realising Transition Pathways website after the event (www.realisingtransitionpathways.org.uk)

Speakers BiographiesTHE RT HON. John Gummer, Lord Deben was the Minister for Agriculture, Fisheries and Food between 1989 and 1993 and was the longest serving Secretary of State for the Environment the UK has ever had. His sixteen years of top-level ministerial experience also include Minster for London, Employment Minister and Paymaster General in HM Treasury. He has consistently championed an identity between environmental concerns and business sense. To that end, he set up and now runs Sancroft, a Corporate Responsibility consultancy working with blue-chip companies around the world on environmental, social and ethical issues. Lord Deben is Chairman of the Committee on Climate Change, Valpak Limited, and the Association of Professional Financial Advisors.

Professor Geoffrey Hammond (Co-Principal Investigator) is Professor of Mechanical Engineering and Founder Director of the University of Bath’s Institute for Sustainable Energy and the Environment. In 2010, he was also appointed as an Honorary Professor in Sustainable Bioenergy at the University of Nottingham. His current research is focused on the technology assessment of energy system and transitional pathways towards a low carbon future. He is the joint recipient of the Dufton Silver Medal, the George Stephenson Prize, and the James Watt Medal for publications in his field. Over recent years, he has advised British Government Departments, Agencies and Parliamentary Committees. He sits on the Editorial Boards and Organising or Scientific Committees for several archival journals and international conferences in the area of energy and the environment.

Professor Peter Pearson (Co-Principal Investigator) is based at Imperial College. Peter was the Director of the Low Carbon Research Institute of Wales (LCRI), a collaboration of research teams in six Welsh universities, with a £50 m research portfolio. Prior to this, he directed the Centre for Energy Policy and Technology (ICEPT) at Imperial College. Since the 1980s his research has addressed past and prospective long-run energy transitions. He has been Chair of the British Institute of Energy Economics, a member of the EC’s Framework Programme Advisory Group on Energy, acted as a Specialist Adviser on to a House of Commons Select Committee, and is an expert adviser/consultant to the World Bank’s Inspection Panel. He was invited to give The Queen’s Lecture 2007 at the Technical University of Berlin, as successor to Lord Rees, President of the Royal Society.

Prof Tim Foxon is Professor of Sustainability Transitions at SPRU (Science Policy Research University of Sussex. His research explores the technological and social factors relating to the innovation of new energy technologies, the co-evolution of technologies and institutions for a transition to a sustainable low carbon economy, and relations and interdependencies between energy use and economic growth. He is a member of the UK Energy Research Centre and of the ESRC Centre for Climate Change Economics and Policy, where he co-leads research on systemic approaches to low-carbon transitions. He was previously Reader in Sustainability and Innovation at the University of Leeds, and a Research Associate/Lecturer at Imperial College London, and the University of Cambridge.

Professor Matthew Leach is Professor of Energy and Environmental Systems at the Centre for Environmental Strategy, University of Surrey. Matthew is a chartered mechanical engineer, with an MSc and PhD in Energy Policy from Imperial College London. He has previously been Vice President of the Energy Institute and Chair of is of the British Institute of Energy Economics. His research has focused on decentralised energy supply systems and the role of demand-side management, exploring the environmental and economic performance of emerging technologies, and the roles for policy, in long term transitions to a low carbon economy.

Dr Stuart Galloway is a Reader in the Department of Electronic and Electrical Engineering at the University of Strathclyde. His core research interests spans aero, marine and energy electrical activities and includes both strategic and applied research. He is a lead investigator on several major collaborative research programs in the UK and the EU, and has a number of industrially funded research projects (NPL, Scottish Power, Rolls-Royce, and Raytheon). He is Deputy Director of the Rolls-Royce University Technology Centre in Electrical Power Systems. He is an editorial board member for the IET journal in Electrical Systems for Transportation and for IET Generation Transmission and Distribution. He leads the Demand Side Management and LV Networks research themes at PNDC, Cumbernauld (pndc.co.uk). He is an invited member of Scottish Government CARES Local Energy Challenge Fund/IIF expert panels (advising on large-scale local low carbon demonstrator projects).

Dr James Smith (Chair) is chair of the Carbon Trust, chair of the Advisory Board of the Grantham Institute on Climate Change at Imperial and LSE, chair of the Conservatoire of Dance and Drama and chair of the advisory board of the Association for Black Engineers UK. He is a former President of the Energy Institute. James retired from Shell in 2011 after 7 years as Chairman of Shell UK.

Rebecca Willis is an independent researcher. Her work focuses on environmental politics and policymaking at both a national and local level. Rebecca convenes Green Alliance’s Climate Leadership Programme for MPs, and, with Lancaster University, is conducting research into the politics of climate change in the UK. She has a particular expertise in community energy issues, working with Co-operatives UK and others to improve the policy environment for decentralised energy solutions. Rebecca is a member of the Scientific Advisory Committee of RCUK’s Energy Programme. From 2011-15 she was a Council Member of the Natural Environment Research Council, and from 2004-11 she was Vice-Chair of the UK Sustainable Development Commission, working with government ministers, advisers and officials to ensure that government policy reflects sustainability goals.

Dr Jenny Cooper specialises in research and development management and has been involved in this project since the very beginning. She was until recently responsible for Transmission research and development within National Grid and is now consulting on energy innovation including working with funding bodies. She has many years’ experience in innovation within the energy industry with a focus on the electricity industry, short and long term strategic planning, environmental issues, new technology and increasingly all aspects of energy technology. She has been a regular speaker at international seminars and conferences. She was a member of EPSRC’s User Panel, chair of the Scientific Advisory Committee for RCUK’s Energy Programme, is a member of EPSRC’s Strategic Advisory Network and the Supergen HLG, the IET’s Energy Sector Executive, Durham Energy Institute’s Advisory Board and a visiting Professor of Engineering at the University of Warwick. She is SET Ambassador in Warwickshire and a Governor at North Warwickshire and Hinckley College supporting engineering as well as general governance.

Nick Smailes was appointed interim CEO of the Energy Systems Catapult after leading on its development from Innovate UK in 2013. He became the permanent Head of Business Development on 1st October 2015, whilst continuing his role as interim CEO until 2nd November 2015. Formerly CEO of PowerOasisLtd, a telecoms network power management company co-founded and spun-out from Motorola, Nick’s passion for technology commercialisation has seen him engaged in the sector as entrepreneur, advisor and venture capitalist for over 15 years. Previously Nick spent 7 years as MD and co-founder of SETsquared, a collaboration in enterprise between the Universities of Bath, Bristol, Southampton and Surrey. SETsquared’s successes include supporting hundreds of early stage technology ventures in the UK and California, facilitating industry academic collaboration and 5 Initial Public Offerings worth over £200m between 2004 and 2007. Nick has a Degree in Economics and Politics from Exeter University.”

Dr David Joffe is Head of Modelling for the Committee on Climate Change. David has been with the Committee on Climate Change since 2007. He led the central analytical team and was the lead author for the CCC’s advice to Government on the 5th carbon budget, which recommended the emissions limit for 2028-32 and was published in November 2015. David has a PhD in Energy Policy and Technology from Imperial College, and has been part of the advisory board throughout the Realising Transition Pathways project, as well as its predecessor. His work focuses on how best to meet economy-wide emissions targets, especially in the longer term.

Parallel Session 1

Prof Tim Foxon (Chair) is Professor of Sustainability Transitions at SPRU (Science Policy Research Unit), University of Sussex. His research explores the technological and social factors relating to the innovation of new energy technologies, the co-evolution of technologies and institutions for a transition to a sustainable low carbon economy, and relations and interdependencies between energy use and economic growth. He is a member of the UK Energy Research Centre and of the ESRC Centre for Climate Change Economics and Policy, where he co-leads research on systemic approaches to low-carbon transitions. He was previously Reader in Sustainability and Innovation at the University of Leeds, and a Research Associate/Lecturer at Imperial College London, and the University of Cambridge.

Dr Jo Coleman is responsible for the ETI’s Technology Strategy. This encompasses using the ETI’s Energy System Modelling Environment (ESME) and suite of models to explore and analyse energy transition pathways and the opportunities and challenges around delivering them, as well as define areas in which ETI’s investment can help deliver an affordable and secure low carbon future energy system in the UK. Prior to joining the ETI, Jo worked in Shell for over 20 years in various technical and managerial roles spanning engineering design and construction, oil and gas field development, national energy planning, economics and new business development. She has worked in the Netherlands, Brunei, Oman, UAE and Malaysia.

Dr Stephen Hall is research fellow at the Sustainability Research Institute, School of Earth and Environment, University of Leeds. His work investigates technological and commercial innovation in energy systems with a focus on urban energy futures. Dr Hall’s research has been used by the UK’s Department of Energy and Climate Change, the International Energy Agency and the Association of Public Sector Excellence. Dr Hall is a member of the International Society for Ecological Economics, the Centre for Climate Change Economics and Policy and the British Institute of Energy Economics.

Dr Evelina Trutnevyte is a senior researcher, lecturer and team leader at ETH Zurich, USYS Transdisciplinarity Lab, and at Swiss Competence Center for Energy Research-Supply of Electricity (SCCER-SoE). She is also an Honorary Senior Research Associate at University College London Bartlett School of Environment, Energy & Resources. She holds a highly competitive Swiss National Science Foundation Ambizione Energy career grant. Evelina is an energy systems analyst and modeler, specializing in socio-technical systems and energy decision making under uncertainty and at science-society interface.

Parallel Session 2

Dr Tera Allas (Chair) is a Visiting Fellow at McKinsey Global Institute, a business and economics think tank, and an independent economic adviser to the States of Jersey, the OECD and a number of other public, private and third sector organisations. She also holds a number of non-executive governance roles, including with Innovate UK, the UK’s national innovation agency. Until 2014, Tera was Deputy Head of the UK Government Economic Service and Director General at the Department for Business, Innovation and Skills (BIS), where she led on growth strategy, analysis and better regulation and authored an influential report on science and innovation leadership. Before this, Tera held Chief Economist roles at the Energy and Climate Change and Transport Departments. Tera holds a M.Sc. in Technology and Industrial Economics (with distinction) from Helsinki University of Technology and an M.B.A. (with distinction) from INSEAD.

Prof Richard Green is the Alan and Sabine Howard Professor of Sustainable Energy Business. An economist, he is Head of the Department of Management. He was previously Professor of Energy Economics and Director of the Institute for Energy Research and Policy at the University of Birmingham, and Professor of Economics at the University of Hull. He started his career at the Department of Applied Economics and Fitzwilliam College, Cambridge. He has spent time on secondment to the Office of Electricity Regulation and has held visiting appointments at the World Bank, the University of California Energy Institute and the Massachusetts Institute of Technology. He has been studying the economics and regulation of the electricity industry for 25 years. He has written extensively on market power in wholesale electricity markets and has also worked on transmission pricing. More recently, the main focus of his work has been on the impact of low-carbon generation (nuclear and renewables) on the electricity market, and the business and policy implications of this.

Dr Francis Li is an energy researcher with a background in engineering and applied economics. Francis builds and uses computational simulation and optimisation models to investigate energy systems challenges relating to the adoption of emerging technologies. His current portfolio of projects includes both academic research for the RCUK energy programme and strategic analysis for energy industry stakeholders (UK Energy Technologies Institute, National Grid plc). Current research activities focus on long term decarbonisation pathway analysis, socio-technical transitions in the energy system, and strategic decision making under conditions of deep uncertainty. Francis previously practiced at a multinational engineering consultancy, is a Chartered Engineer with the Energy Institute (EI) and a member of the British Institute of Energy Economics (BIEE).

Dr Danny Pudjianto is a Research Fellow at Imperial College London. His expertise is in the development of complex optimization techniques and algorithms for system (generation, transmission, and distribution network) planning and operation with more than 15 years’ experience. His research interests include development of holistic approaches for assessing and analyzing the value of emerging technologies including demand side response and bulk/distributed storage on the power system infrastructure requirements and operation under future system development scenarios. He has experience with public and private sector consultancy, and energy policy and technology research at international level. He has published more than 60 technical papers in peer-reviewed international journals and conferences.

Parallel Session 3

Dr Garry Staunton (Chair) is an independent consultant who has been active in the research, innovation and commercialisation space for a number of years. He has worked with a diverse range of entrepreneurs, start-ups, researchers, private investors and public sector funders with the shared goal of accelerating the pace at which novel ideas are turned into commercial reality. He has acted as an adviser to a number of bodies including Innovate UK and the RCUK Energy Programme and sits on a number of high level advisory groups. Prior to founding his consultancy business Garry was the Technology Director for the Car-bon Trust where he developed their innovation support programmes and played an active role in establishing a number of companies.

Professor Geoffrey Hammond (Co-Principal Investigator) is Professor of Mechanical Engineering and Founder Director of the University of Bath’s Institute for Sustainable Energy and the Environment. In 2010, he was also appointed as an Honorary Professor in Sustainable Bioenergy at the University of Nottingham. His current research is focused on the technology assessment of energy system and transitional pathways towards a low carbon future. He is the joint recipient of the Dufton Silver Medal, the George Stephenson Prize, and the James Watt Medal for publications in his field. Over recent years, he has advised British Government Departments, Agencies and Parliamentary Committees. He sits on the Editorial Boards and Organising or Scientific Committees for several archival journals and international conferences in the area of energy and the environment.

Dr Camilla Thomson completed her first degree in Electrical and Mechanical Engineering at the University of Edinburgh, before working as a Building Services Engineer for Arup in London. Since 2009 she has been back at the University of Edinburgh, and completed her PhD on the Carbon and Energy Payback of Variable Renewable Generation in 2014. She is currently working as a Research Associate on a number of projects, including carrying out LCA studies for the development of innovative wave energy converters (PolyWEC), and efficient logistics for installation of offshore wind farms (LEANWIND). Her research interests also include the impacts of renewable generation and climate change on national power networks and electricity supply, such as the marginal emissions displacement of wind power. She is a Life Cycle Assessment Certified Professional with the American Center for Life Cycle Assessment and a Member of the Institute of Engineering and Technology.

Parallel Session 4

Áine O’Grady worked as a Research officer as part of the Sustainable Energy Research team in the Department of Mechanical Engineering at the University of Bath where she is currently completing her PhD. Her research focuses on the technology assessment of energy systems, specialising in the interaction of current and future energy systems with the environment (particularly their impact on climate change). Furthermore, she explores the implications of policy shifts and emerging technologies (such as Shale gas) on UK energy futures. Áine was jointly awarded the James Watt Medal of the Institution of Civil Engineers (ICE) for a paper exploring the upstream emissions in the power sector.

Dr Adam Morton (Chair) joined Rolls-Royce in 2007 as their Chief of Low Carbon Technology to drive the company’s research interests in tidal energy, carbon capture and storage (CCS) and offshore wind turbines. His current role as Head of Business in Strategic Research is closely concerned with building strategic relationships across industry and academia, particularly in the energy space. This is combined with a place on the Energy Technology Institute’s (ETI) Portfolio Advisory Group helping to drive technical decision making across their portfolio. Prior experience includes energy project development and M&A with US firm Mirant Corp, and energy sector consultancy with Mott MacDonald and Ewbank Preece.

Dr John Barton is a Research Associate at Loughborough University’s Centre for Renewable Energy Systems Technology. His first degree was in Mechanical Engineering at Cambridge University. After 11 years designing and testing compressors and fans at Rolls-Royce (aero engines), John moved to Loughborough University to study renewable energy. His research interests at Loughborough include the variability of renewable energy, especially wind power; the integration of renewables into electricity systems; demand-side management and flexible demand; public engagement with renewable energy; and energy storage, especially hydrogen. John has also had a number of industrial research roles, being a director of Bryte Energy Ltd followed by Air Fuel Synthesis Ltd. John has developed a time-step model of the UK’s energy use called Future Energy Scenario Assessment (FESA)..

Parallel Session 5

Dr Stuart Galloway is a Reader in the Department of Electronic and Electrical Engineering at the University of Strathclyde. His core research interests spans aero, marine and energy electrical activities and includes both strategic and applied research. He is a lead investigator on several major collaborative research programs in the UK and the EU, and has a number of industrially funded research projects (NPL, Scottish Power, Rolls-Royce, and Raytheon). He is Deputy Director of the Rolls-Royce University Technology Centre in Electrical Power Systems. He is an editorial board member for the IET journal in Electrical Systems for Transportation and for IET Generation Transmission and Distribution. He leads the Demand Side Management and LV Networks research themes at PNDC, Cumbernauld (pndc.co.uk). He is an invited member of Scottish Government CARES Local Energy Challenge Fund/IIF expert panels (advising on large-scale local low carbon demonstrator projects).

Dr Jeff Hardy (Chair) is Head of Sustainable Energy Futures at Ofgem. Prior to his appointment, he was Head of Future Consumers and Sustainability and a Senior Manager in the Sustainable Development team at Ofgem. Jeff was also a Knowledge Exchange Manager at the UK Energy Research Centre and Future and Emerging Opportunities Manager at the Energy Generation and Supply Knowledge Transfer Network where he ran the National Energy Research Network and was responsible for coordinating UKERCs input to government policy. In the past he has been Environment and Energy Policy Manager at the Royal Society of Chemistry, an academic working on Green Chemistry, a water analyst and a research chemist in a nuclear laboratory.

Dr Jason Chilvers is a Senior Lecturer, and Chair of the Science, Society and Sustainability (3S) Research Group, in the School of Environmental Sciences at the University of East Anglia. His work situated in the disciplines of Science and Technology Studies (STS), geography and environmental science focuses on relations between science, technology and society including studies of governance, appraisal and public participation relating to science, sustainability and energy issues. Jason leads UEA’s research on the Realising Transitions Pathways project focusing on governance, actor dynamics, energy demand, and interdisciplinary energy research. He is a leading international expert on participatory governance of science and innovation, has taken up expert advisory roles for Defra, Sciencewise, CoRWM, the Environment Agency and the Royal Society, and is author (with Matthew Kearnes) of the book Remaking Participation: Science, Environment and Emergent Publics (Routledge, 2015).

Parallel Session 6

Dr Eoghan McKenna is a Research Associate in Energy Demand at the Wolfson School of Mechanical, Electrical and Manufacturing Engineering, Loughborough University. His research focuses on energy, environment, and economic models of power systems, the urban built environment and the behaviour of energy consumers to address the challenge of transitioning to a low-carbon economy. His research is fundamentally interdisciplinary in nature, integrating quantitative, data-driven engineering models of energy supply and demand with qualitative insights from behavioural and social sciences.

Dr Murray Thomson is a Senior Lecturer in Electrical Networks and Systems at the Centre for Renewable Energy Systems Technology (CREST), Loughborough University. His research focuses on the integration of renewables into electricity networks at all scales and he has been an investigator on six major collaborative EPSRC projects in this area. Specific interests include grid balancing, energy storage, demand response, high-resolution modelling of domestic energy demand and distribution network analysis.

Dr Caroline Kuzemko (Chair) is a Senior Research Fellow in the University of Exeter’s Energy Policy Group working as part of an EPSRC funded project, ‘Innovation and Governance (IGov)’. She has research interests in energy and climate governance, sustainable energy transitions; (de)politicisation and institutional change. She is a the (co-)convenor of two international, inter-disciplinary academic networks: the PSA sponsored ‘Anti-politics and Depoliticisation Special Group’ (APDSG) and the ‘Political Economy of Energy in Europe and Russia’ (PEEER). Caroline has recently published The Global Energy Challenge (2015 Palgrave Macmillan) and articles in the Journal of European Public Policy; Review of International Studies; Energy Research & Social Sciences and British Journal of Politics.

Prof Tim Foxon is Professor of Sustainability Transitions at SPRU (Science Policy Research Unit), University of Sussex. His research explores the technological and social factors relating to the innovation of new energy technologies, the co-evolution of technologies and institutions for a transition to a sustainable low carbon economy, and relations and interdependencies between energy use and economic growth. He is a member of the UK Energy Research Centre and of the ESRC Centre for Climate Change Economics and Policy, where he co-leads research on systemic approaches to low-carbon transitions. He was previously Reader in Sustainability and Innovation at the University of Leeds, and a Research Associate/Lecturer at Imperial College London, and the University of Cambridge.

Professor Peter Pearson (Co-Principal Investigator) is based at Imperial College. Peter was the Director of the Low Carbon Research Institute of Wales (LCRI), a collaboration of research teams in six Welsh universities, with a £50 m research portfolio. Prior to this, he directed the Centre for Energy Policy and Technology (ICEPT) at Imperial College. Since the 1980s his research has addressed past and prospective long-run energy transitions. He has been Chair of the British Institute of Energy Economics, a member of the EC’s Framework Programme Advisory Group on Energy, acted as a Specialist Adviser on to a House of Commons Select Committee, and is an expert adviser/consultant to the World Bank’s Inspection Panel. He was invited to give The Queen’s Lecture 2007 at the Technical University of Berlin, as successor to Lord Rees, President of the Royal Society.

Dr Noel Longhurst is a Senior Research Associate at the University of East Anglia where he is a member of the Science, Society and Sustainability Research Group. Trained as a Human Geographer, his research interests include the role that different actors play in sustainability transitions, in particular the role of civil society groups and social movements.

Final Panel Session

Prof Peter Taylor (Chair) holds a Chair in Sustainable Energy Systems at the Centre for Integrated Energy Research, University of Leeds and is also a member of the ESRC-funded Centre for Climate Change Economics and Policy. His research and teaching is at the energy technology / policy interface and he has particular interests in long-term, low-carbon energy technology transitions and the innovation and other policies needed to achieve them. Prior to joining the University of Leeds, Peter was Head of the Energy Technology Policy Division at the International Energy Agency in Paris from 2007 to 2011, responsible for high profile publications such as the bi-annual Energy Technology Perspectives and the Energy Technology Roadmap series.

Prof Patrick Devine Wright took up the position of Professor in Human Geography in 2009 at the University of Exeter and has acted as Leader of the Environment and Sustainability Research Group since 2014. He specialises in researching policy-relevant environmental problems using an interdisciplinary mixed-method approach that is theoretically informed and has clear pathways to impact. His expertise lies in understanding social, psychological and spatial aspects of the deployment of sustainable energy infrastructure at micro/domestic, meso/community and macro scales (e.g. company led wind farms and power lines), including issues of ‘NIMBYism’ together with underpinning processes such as place attachments and public participation. He was appointed to the Social Science Expert Panel advising two UK Government departments: DEFRA and DECC since 2013, as well as the National Advisory Group on Community Engagement for EirGrid (the Irish electricity grid operator).

Dr Neil Bateman originally trained as an engineer and worked in industry for twelve years before retraining as a geochemist. In 2001 he joined the EPSRC. Currently he works in the RCUK Energy Programme which has a portfolio in excess of £750M across the UK Research Councils. He currently has responsibility for whole energy systems and Nuclear Fission research portfolio at EPSRC. Previously Neil administered the renewable energy portfolio and was responsible for compiling data on the overall size and funding trajectory for the RC energy portfolio for planning future commitment profiles. In 2010 he organised the international review of UK energy research.

Dr Jason Chilvers is a Senior Lecturer, and Chair of the Science, Society and Sustainability (3S) Research Group, in the School of Environmental Sciences at the University of East Anglia. His work situated in the disciplines of Science and Technology Studies (STS), geography and environmental science focuses on relations between science, technology and society including studies of governance, appraisal and public participation relating to science, sustainability and energy issues. Jason leads UEA’s research on the Realising Transitions Pathways project focusing on governance, actor dynamics, energy demand, and interdisciplinary energy research. He is a leading international expert on participatory governance of science and innovation, has taken up expert advisory roles for Defra, Sciencewise, CoRWM, the Environment Agency and the Royal Society, and is author (with Matthew Kearnes) of the book Remaking Participation: Science, Environment and Emergent Publics (Routledge, 2015).

Beth Robertson is a Research Assistant in the Advanced Electrical Systems research group of the Electronic and Electrical Engineering Department at the University of Strathclyde. Beth moved to Strathclyde in 2008 after gaining an MPhys (Hons) from the University of York. While a member of the EPSRC funded Transition Pathways consortium, HESA – the Hybrid Energy Systems Tool – was developed. Principal research interests include multiple energy carrier energy system modelling and optimisation techniques as well as the reduction of emissions and increased efficiency in the energy sector through the integration of (distributed) low carbon energy sources.

Realising Transition Pathways: Publications 2012-2016

Publications related to the project The papers cited here all contain an acknowledgement to support under EPSRC and the EPSRC Strategic Partnership. Some of the co-authors have received funded from other Research Council and related sources.

Peer reviewed journalsAlderson, H., G.R. Cranston and G.P. Hammond (2012). Carbon and environmental footprinting of low carbon UK electricity futures to 2050. Energy, 48 (1), 96-107. [DOI: 10.1016/j.energy.2012.04.011].

Arapostathis, S., Pearson, P.J.G. and Foxon, T.J. (2014). UK natural gas system integration in the making, 1960–2010: Complexity, transitional uncertainties and uncertain transitions. Environmental Innovation and Societal Transitions, 11, pp. 87-102. [http://dx.doi.org/10.1016/j.eist.2014.01.004].

Aunedi, M., Kountouriotis, P.A., Calderon J.E.O., Angeli, D. and Strbac, G. (2013). Economic and Environmental Benefits of Dynamic Demand in Providing Frequency Regulation. IEEE Transactions on Smart Grid, 4 (4), 2036-2048. [http://dx.doi.org/10.1109/TSG.2013.2258047].

Barnacle, M., Galloway, S., Ault, G. and Elders, I. (2014 – submitted). A multi-objective transmission expansion planning model for analysing future energy scenarios in the GB network. IEEE Transactions on Smart Grid.

Bolton, R. and Foxon, T.J. (2013). Urban Infrastructure Dynamics: market regulation and the shaping of district energy in UK cities. Environment and Planning A, 45(9), 2194 – 2211. [http://dx.doi.org/10.1068/a45575].

Bolton, R. and Foxon, T. (2014). Infrastructure transformation as a socio-technical process – Implications for the governance of energy distribution networks in the UK. Technological Forecasting and Social Change, 90, Part B, 538-550 [doi: 10.1016/j.techfore.2014.02.017].

Bolton, R. and Foxon, T. (2015). A socio-technical perspective on low carbon investment challenges – Insights for UK energy policy. Environmental Innovation and Societal Transitions, 14, 165-181. [http://www.sciencedirect.com/science/article/pii/S221042241400063X].

Bolton, R., Foxon, T.J. and Hall, S. (2015). Managing uncertainty: An analysis of UK energy regime realignments to deliver investment in electricity infrastructure. Environment and Planning C (online) http://epc.sagepub.com/content/early/2015/12/10/0263774X15619628.full.pdf+html

Carlsson-Hyslop, A. (2016). Past Management of Energy Demand: Promotion and Adoption of Electric Heating in Britain 1945-1964. Environment and History 22(1), 75-102. http://dx.doi.org/10.3197/096734016X14497391602242

Cheng, V.K.M. and Hammond, G.P. (2014). Energy density and spatial footprints of various electrical power systems. Energy Procedia, 61, 578-581. [doi:10.1016/j.egypro.2014.11.1174]

Chilvers, J. and Kearnes, M. (eds.) (2015) Remaking Participation: Science, Environment and Emergent Publics, Abingdon: Routledge, pp.295. ISBN: 9780415857406.

Chilvers, J. and Longhurst, N. (2016) Participation in Transitions: Reconceiving Public Engagements in Energy Transitions as Co-Produced, Emergent and Diverse. Journal of Environmental Policy and Planning DOI:10.1080/1523908X.2015.1110483.

Cooper, S.J.G., Dowsett, J., Hammond, G.P., McManus M.C. and Rogers, J.G. (2013). Potential of demand side management to reduce carbon dioxide emissions associated with the operation of heat pumps. J. Sustain. Dev. Energy Water Environ. Syst., 1 (2): 94-108 . [DOI: 10.13044/j.sdewes.2013.01.0007].

Cooper, S., Hammond, G.P. and McManus, M.C. (2013). Thermodynamic efficiency of low-carbon domestic heating systems: Heat pumps and micro-generation. Proc. Instn Mech. Engrs Part A: Journal of Power and Energy, 227 (1): pp. 18-29 . [http://dx.doi.org/10.1177/0957650912466011]. Cooper, S.J.G., Hammond, G.P., McManus, M.C. and Pudjianto, D. (2015). Detailed simulation of electrical demands due to nationwide adoption of heat pumps, taking account of renewable generation and mitigation. IET Renew. Power Gener.: accepted for publication 29 September [DOI: 0.1049/iet-rpg.2015.0127].

Fouquet, R. and Pearson, P.J.G. (2012). Past and Prospective Energy Transitions: Insights from History. Editorial for Energy Policy Special Section on Past and Prospective Energy Transitions. Energy Policy, 50, pp. 1-7. [http://dx.doi.org/10.1016/j.enpol.2012.08.014].

Fouquet, R and Pearson P (2012). Special Section: Past and Prospective Energy Transitions - Insights from History. Energy Policy, 50, 1-848. [http://www.sciencedirect.com/science/journal/03014215/50/supp/C].

Foxon, T.J. (2013). Transition pathways for a UK low carbon electricity future. Energy Policy 52, 10-24, [http://dx.doi.org/10.1016/j.enpol.2012.04.001 ].

Foxon, T J, Hammond, G P, Leach, M A, and Pearson, P J G (2013). Special Section: Transition Pathways to a Low Carbon Economy. Energy Policy, 52, 1-840. [http://www.sciencedirect.com/science/journal/03014215/52/supp/C].

Foxon, T.J., Pearson, P.J., Araposthathis, S., Carlsson-Hyslop, A. and Thornton, J. (2013). Branching points for transition pathways: assessing responses of actors to challenges on pathways to a low carbon future. Energy Policy 52, 146-158, [http://dx.doi.org/10.1016/j.enpol.2012.04.030 ].

Gan, C. K., Pudjianto, D., Djapic, P. and Strbac, G. (2014). Strategic Assessment of Alternative Design Options for Multivoltage-Level Distribution Networks. IEEE Transactions on Power Systems, 29 (3): pp. 1261-1269 [10.1109/TPWRS.2013.2290103].

Grünewald P., McKenna E., Thomson M. 2015. Keep it simple: time-of-use tariffs in high-wind scenarios. IET Renewable Power Generation, 9(2):176..

Hall, S. and Foxon, T. (2014). Values in the Smart Grid: the co-evolving political economy of smart distribution. Energy Policy, 74, 600-609. [DOI: 10.1016/j.enpol.2014.08.018]

Hall, S., Foxon, T.J. and Bolton, R. (2016). Financing the Civic Energy Sector: How financial institutions affect ownership models in Germany and the United Kingdom. Energy Research and Social Science, 12, 5-15 http://www.sciencedirect.com/science/article/pii/S2214629615300748

Hammond, G.P. (2012). Themed Issue Editorial: Carbon Dioxide Capture and Geological Storage. Proc. Instn Civil. Engrs: Energy, 165 (2), 47-50. [DOI:10.1680/ener.2012.165.2.47].

Hammond, G. (2012). Book Review: Terry, N., Energy and Carbon Emissions: The Way We Live. Proc. Instn Civil. Engrs: Energy, 165 (3): 161.[DOI: 10.1680/ener.11.00034].

Hammond, G. (2013). Briefing: Carbon dioxide capture and storage faces a challenging future. Proc. Instn Civil. Engrs: Civil Engineering, 166 (4): 147. [DOI:10.1680/cien.2013.166.4.147].

Hammond, G.P. (2014). Progress in Energy Demand Reduction - From Here to 2050 (Editorial), Proc. Instn Civil. Engrs: Energy, 167 (3): 89-102 [DOI: 10.1680/ener.167.3.89]. Hammond, G. (2015). Briefing: Progress in energy demand reduction – from here to 2050. Proc. Instn Civil. Engrs: Civil Engineering, 168 (3): 100 [DOI: 10.1680/cien.2015.168.3.100].

Hammond, G.P. and T. Hazeldine (2015). Indicative energy technology assessment of advanced rechargeable battery technologies’, Applied Energy, 138: 559-571 [doi.org/10.1016/j.apenergy.2014.10.037].

Hammond, G.P., H.R. Howard and C.I. Jones, (2013). The energy and environmental implications of UK more electric transition pathways: a whole systems perspective. Energy Policy, 52: 103-116. [DOI: 10.1016/j.enpol.2012.08.071].

Hammond, G.P., H.R. Howard and A. Tuck, (2012). Risk assessment of UK biofuel developments within the rapidly evolving energy and transport sectors. Proc. Instn Mech. Engrs Part O: Journal of Risk and Reliability, 226 (5): 526-548. [DOI:10.1177/1748006X12448147].

Hammond, G.P., Jones, C.I. and Spevack, R. (2014). The ‘Shoots Barrage’: An indicative energy technology assessment of a tidal power scheme. Journal of Sustainable Development of Energy, Water and Environment Systems, 2(4), 388-407. [DOI:10.13044/j.sdewes.2014.02.0031].

Hammond, G. and G. Mitchell, 2014. Rare earth elements - a constraint on clean energy technologies? Energy World magazine, No. 430 (October): 32-33.

Hammond, G.P. and O’Grady, A. (2014). The implications of upstream emissions from the power sector. Proc. Instn Civil. Engrs: Energy, 167 (1), 9-19 [DOI: 10.1680/ener.13.00006].

Hammond, G.P. and O’Grady, Á. (2015 – submitted for review). The threat of a gas supply evolution to a low carbon future in the UK. Environmental Science and Technology.

Hammond, G.P., A. O’Grady and D.E. Packham (2015). Energy technology assessment of shale gas ‘fracking’ – A UK perspective. Energy Procedia (The 7th International Conference on Applied Energy – ICAE2014, Abu Dhabi, UAE, 28-31 March, Paper ICAE2015-600), 75: 2764-2771 [DOI: 10.1016/j.egypro.2015.07.526].

Hammond, G.P. and Pearson, P.J.G. (2013). Challenges of the Transition to a Low Carbon, More Electric Future: From Here to 2050, Editorial for Energy Policy Special Section on Transition Pathways. Energy Policy 52, 1-9. [http://dx.doi.org/10.1016/j.enpol.2012.10.052].

Hammond, G.P. and Spargo, J. (2014). The prospects for coal-fired power plants with carbon capture and storage: A UK perspective. Energy Conversion and Management, 86, 476-489. [doi:10.1016/j.enconman.2014.05.030].

Hargreaves, T., Nye, M., & Burgess, J. (2013). Keeping energy visible? How householders interact with feedback from smart energy monitors in the longer term. Energy Policy, 52, 126-134.

Higginson S., McKenna E., Hargreaves T., Chilvers J., Thomson M. 2015. Diagramming social practice theory: An interdisciplinary experiment exploring practices as networks. Indoor and Built Environment, 24(7):950.

Higginson, S., Thomson, M., & Bhamra, T. (2013). For the times they are a-changin’: the impact of shifting energy-use practices in time and space. Local Environment: The International Journal of Justice and Sustainability, 19 pages. [http://dx.doi.org/10.1080/13549839.2013.802459].

Holtz, G., Alkemade, F., de Haan, F., Köhler, J., Trutnevyte, E., Chappin, E., Halbe, J., Yücel, G., Ruutu, S., Kwakkel, J., Papachristos G. (submitted September 2014). Prospects for transitions modelling). Innovations and Societal Transitions.

Huang, S. and Infield, D.G. (2014). Plug-in electric vehicles as demand response to local surplus wind generation. Int. J, of Electric and Hybrid Vehicles, 6 (4), 350-364. [10.1504/IJEHV.2014.067621]

Johnson, V.C.A., Sherry-Brennan, F. and Pearson, P.J.G. (2016). Alternative liquid fuels in the UK in the interwar period (1918–1938): Insights from a failed energy transition. Environmental Innovation and Societal Transitions. http://dx.doi.org/10.1016/j.eist.2015.12.001

Johnson, V. and Hall, S. (2014) [Contributors: Barton, J., Emmanuel-Yusuf, D., Longhurst, N., O’Grady, A., Robertson, E., Robinson, E., Sherry-Brennan, F.]. Community energy and equity: The distributional implications of a transition to a decentralised electricity system. People, Place and Policy, 8/3, 149-167. [DOI: 10.3351/ppp.0008.0003.0002]

Kelly, K.A., McManus, M.C. and Hammond, G.P. (2014). An energy and carbon life cycle assessment of industrial CHP (combined heat and power) in the context of a low carbon UK. Energy, 77, 812-821. [doi.org/10.1016/j.energy.2014.09.051]

Longhurst, N., Chilvers, J. & Hargreaves, T. (in review). Interdisciplinary transitions: Collaborative objects, coherence and the politics of interdisciplinary energy research. Environment and Planning A.

Longhurst, N. (2015) Towards an ‘alternative’ geography of innovation: Alternative milieu, socio-cognitive protection and sustainability experimentation’. Environmental Innovation and Societal Transitions, 17, 183 – 198.

Macnaghten, P., R. Owen, J. Stilgoe, B. Wynne, A. Azevedo, A. de Campos, J. Chilvers, R. Dagnino, G. di Giulio, E. Frow, B. Garvey, C. Groves, S. Hartley, M. Knobel, E. Kobayashi, M. Lehtonnen, J. Lezaun, L. Mello, M. Monteiro, J. Pamplona, C. Rigolin, B. Rondani, M. Staykova, R. Taddei, C. Till, D. Tyfield, S. Wilford and L. Velho (2014). Responsible innovation across borders: tensions, paradoxes and possibilities. Journal of Responsible Innovation 1(2): pp. 191-199 [http://dx.doi.org/10.1080/23299460.2014.922249].

McKenna E., Thomson M. 2014. Demand response behaviour of domestic consumers with photovoltaic systems in the UK: an exploratory analysis of an internet discussion forum. Energy, Sustainability and Society, 4:13.

McKenna E., Grünewald P., Thomson M. 2015. Going with the wind: temporal characteristics of potential wind curtailment in Ireland in 2020 and opportunities for demand response. IET Renewable Power Generation, 9(1):66.

Moreno, R., Pudjianto, D., and Strbac, G. (2013). Transmission Network Investment with Probabilistic Security and Corrective Control. IEEE Transactions on Power Systems, 28 (4), 3935-3944. [http://dx.doi.org/10.1109/TPWRS.2013.2257885].

Moreno, R., Pudjianto, D., and Strbac, G. (2012). Integrated reliability and cost-benefit-based standards for transmission network operation. Proceedings of the Institution of Mechanical Engineers Part O-Journal of Risk and Reliability, 226 (O1), 75-87. [doi:10.1177/1748006X11424103].

Papadaskalopoulos, D., Pudjianto, D. and Strbac, G. (2014). Decentralized Coordination of Microgrids With Flexible Demand and Energy Storage. IEEE Transactions on Sustainable Energy 5 (4): pp. 1406-1414 [10.1109/TSTE.2014.2311499].

Parker M, Acland A, Armstrong AJ, Bellingham JR, Bland J, Bodmer HC, Burrall S, Castell S, Chilvers J, Cleevely DD, Cope D, Costanzo L, Dolan JA, Doubleday R, Feng WY, Godfray HCJ, Good DA, Grant J, Green N, Groen AJ, Guilliams TT, Gupta S, Hall AC, Heathfield A, Hotopp U, Kass G, Leeder T, Lickorish FA, Lueshi LM, Magee C, Mata T, McBride T, McCarthy N, Mercer A, Neilson R, Ouchikh J, Oughton EJ, Oxenham D, Pallett H, Palmer J, Patmore J, Petts J, Pinkerton J, Ploszek R, Pratt A, Rocks SA, Stansfield N, Surkovic E, Tyler CP, Watkinson AR, Wentworth J, Willis R, Wollner PKA, Worts K, Sutherland WJ. (2014). Identifying the Science and Technology Dimensions of Emerging Public Policy Issues through Horizon Scanning. PLOS ONE 9 (5). [10.1371/journal.pone.0096480].

Pearson, P.J.G, Arapostathis, S., Carlsson-Hyslop, A., Gradillas, M., Laczay, S., Thornton, J. and Wallis, S. (2013). Governing Transitions: Cases and insights from two periods in the history of the UK gas industry. Energy Policy Special Section on Transition Pathways. Energy Policy 52, 25-44. [http://dx.doi.org/10.1016/j.enpol.2012.08.016].

Pearson P.J.G. and Foxon, T.J. (2012). A Low Carbon Industrial Revolution? Insights and Challenges from Past Technological and Economic Transformations. Energy Policy 50, 117-127. [http://dx.doi.org/10.1016/j.enpol.2012.07.061].

Pudjianto, D., Aunedi, M., Djapic, P. and Strbac, G. (2014). Whole-Systems Assessment of the Value of Energy Storage in Low-Carbon Electricity Systems. IEEE Transactions on Smart Grid, 5 (2), 1098-1109. [http://dx.doi.org/10.1109/TSG.2013.2282039].

Robertson, E. and Galloway, S. (2014 – in preparation). A bulk carrier model for the Future energy infrastructures in the UK. IEEE Transactions on Sustainability (May 2014).

Robertson, E., Galloway, S., Barnicoat, G. and Danson, M. (2014 – in preparation). Multiple energy carrier modelling: The Angus Model, A Scottish case study. Energy Policy (July 2014).

Rogers, J.G., Cooper, S.J.G., O’Grady, Á., McManus, M.C., Howard, H.R. and Hammond, G.P. (2015). The 20% house – An integrated assessment of options for reducing net carbon emissions from existing UK houses. Applied Energy, 138, 108-120. [doi.org/10.1016/j.apenergy.2014.10.047]. Stephen, B., Galloway, S.D.R. and Burt, G.M. (2014). Self-learning load characteristic models for smart appliances. IEE Transactions on Smart Grid, 5 (5): pp. 1-8. [http://dx.doi.org/10.1109/TSG.2014.2318375].

Stephen, B., Isleifsson, F.R., Galloway, S.D.R., Burt, G.M. and Bindner, H.W. (2014). Online AMR Domestic Load Profile Characteristic Change Monitor to Support Ancillary Demand Services. IEE Transactions on Smart Grid, 5 (2): pp. 888-895. [10.1109/TSG.2013.2286698].

Thornton, J. and Pearson, P.J.G. (2013). Bristol Water Works Company; a study of nineteenth century resistance to local authority purchase attempts. Water History, 5 (3), 307-330. [http://dx.doi.org/10.1007/s12685-013-0083-1].

Trutnevyte, E. (2013). EXPANSE methodology for evaluating the economic potential of renewable energy from an energy mix perspective. Applied Energy 111, 593-601. [http://dx.doi.org/10.1016/j.apenergy.2013.04.083].

Trutnevyte, E. (2014). The allure of energy visions: Are some visions better than others? Energy Strategy Reviews, 2 (3-4), 211-219. [http://dx.doi.org/10.1016/j.esr.2013.10.001].

Trutnevyte, E., Barton, J., O’Grady, Á., Ogunkunle, D., Pudjianto, D., Robertson, E. (2014). Linking storylines with multiple models: an interdisciplinary analysis of the UK power system transition. Technological Forecasting and Social Change, 89, 26-42. [10.1016/j.techfore.2014.08.018]

Trutnevyte, E., Strachan, N., Dodds, P., Pudjianto, D., and Strbac, G. (2015). Synergies and trade-offs between governance and costs: Low carbon electricity system transition under market, government and society logics. Energy Policy, 85, 170-181. [http://dx.doi.org/10.1016/j.enpol.2015.06.003].

Books / Book Chapters Foxon, T.J. (2012). Managing the transition towards sustainable regimes: A co-evolutionary approach. In: Marletto, G. (ed.), Creating a Sustainable Economy - An institutional/ evolutionary framework of economic change. Routledge, London, pp. 115-131.

Foxon, T.J. and Pearson, P.J.G. (2014). Chapter 9: The UK low carbon energy transition: prospects and challenges. In: Carbon Governance, Climate Change and Business Transformation; Bumpus, A., Tansey, J., Pérez Henríquez, B.L., Okereke, C. (eds.), Routledge, ISBN 978-0-415-81690-8.

Hammond, G.P. (2014). Book Review: Markusson, N., Shackley, S. and Evar, B. (eds). The Social Dynamics of Carbon Capture and Storage: Understanding CCS Representations, Governance and Innovation’, Proc. Instn Civil. Engrs: Energy, 167 (2): 86-88. [DOI:10.1680/ener.13.00017].

Hammond, G.P. (2016). Carbon and environmental footprint methods for renewables-based products and transition pathways to 2050. In: Sustainability Assessment of Renewables-Based Products: Methods and Case Studies, Dewulf, J., S. De Meester and R.A.F. Alvarenga (eds), John Wiley and Sons, London, UK, Ch. 11, pp. 155-178 [ISBN: 978-1-118-93394-7].

Hammond, G.P., C.I. Jones and A. O’Grady (2015). Environmental life cycle assessment (LCA) of energy systems. In: Handbook of Clean Energy Systems, Vol. 6. - Sustainability of Energy Systems, Yan, J. (ed.), John Wiley and Sons, Chichester, UK, Ch. 22, pp. 3343-3368 [ISBN: 978-1-118-38858- 7].

Hargreaves, T. (2014). Smart Meters and the Governance of Energy Use in the Household. In J. Stripple & H. Bulkeley (Eds.), Governing the Global Climate: New approaches to rationality, power and politics (pp. 127-143). Cambridge: Cambridge University Press.

Pearson, P.J.G. (2016, in press). Energy transitions. Invited entry in the New Palgrave Dictionary of Economics. Online Edition. Palgrave Macmillan. http://www.dictionaryofeconomics.com/dictionary

Strachan, N. and Foxon, T.J. (2012). A low carbon transition. In: Herring, H. (ed.), Living in a low-carbon society in 2050. Palgrave Macmillan, Basingstoke.

Working Papers & Reports Barton, J., Davies, L., Foxon, T.J., Galloway, S., Hammond, G.P., O’Grady, A., Robertson, E. and Thomson, M. (December 2013). Transition pathways for a UK low carbon electricity system: Comparing scenarios and technology implications. Realising Transition Pathways Working Paper 2013/5.

Barton, J., Emmanuel-Yusuf, D., Hall, S., Johnson, V., Longhurst, N., O’Grady, A., Robertson, E., Robinson, E., Sherry-Brennan, F. (2015). Distributing Power: A transition to a civic energy future. Realising Transition Pathways Research Consortium.

Carlsson-Hyslop, A. and Pearson, P.J.G. (2013). How did the Electrical Development Association attempt to mould domestic electricity demand in Britain, 1945-1964? Realising Transition Pathways Working Paper, 2013/1. Bath: University of Bath.

Chilvers, J. and Longhurst, N. (2012). Participation, politics and actor dynamics in low carbon energy transitions. Report of a Transition Pathways Project workshop, Norwich, 21-22 March 2012. Norwich: Science, Society and Sustainability Research Group.

Chilvers, J. and Longhurst, N. (2014). Co-production and emergence of diverse public engagements in energy transitions: towards relational, symmetrical and systemic understandings of participation. 3S Working Paper 2014-26. Norwich: Science, Society and Sustainability Research Group.

Chilvers, J. and Longhurst, N. (2015). A Relational-Coproductionist Approach to Socio-technical Transitions. 3S Working paper 2015-27. Norwich: Science, Society and Sustainability Research Group

Chilvers, J. and Pallett, H. (2015). Making Energy Publics: Workshop Report. 3S Research Group, University of East Anglia.

Foxon, T.J. and Pearson, P.J.G. (September 2013). The UK low carbon energy transition: prospects and challenges. Realising Transition Pathways Working Paper 2013/3. Hall, S., Foxon, T.J. and Bolton, R. (2015). The new ‘civic’ energy sector: civil society institutions and energy infrastructure transitions in Germany and the UK. Realising Transition Pathways Working Paper 2015/1.

Hall, S. and Roelich, K. (2015). Local Electricity Supply; Opportunities, Archetypes and Outcomes. iBuild Research Consortium.

Hammond, G.P. and A. O’Grady, (2013). The implications of upstream emissions from the power sector, Realising Transition Pathways Working Paper, 2013/2.

Hargreaves, T. (2012). Unpicking model assumptions about domestic/end-use energy demand. Report on the workshop held at Loughborough University on 18th October 2012. Realising Transition Pathways Working Paper, 31 October 2012.

Hargreaves, N., Chilvers, J. and Hargreaves, T. (2015). What’s the meaning of ‘smart’? A study of smart grids. 3S Research Group, University of East Anglia..

Higginson, S. (2013). The Rhythm of Life is a Powerful Beat. PhD thesis submitted August 2013 [corrections pending].

Huang, S. (2014). Statistical Analysis of Passenger Car Use and Modelling the Impact of Electric Vehicle Take-up on the Power Distribution Network. PhD thesis submitted August 2014.

Johnson, V.C.A., Sherry-Brennan, F. and Pearson, P.J.G. (2014). Alternative liquid fuels in Britain in the inter-war period (1918-1938): Insights for future energy transitions. Realising Transition Pathways Working Paper 2014/1.

Johnson, V.C.A., Sherry-Brennan, F and Pearson, P.J.G. (2014). Alternative Liquid Fuels: Governance, Security and Transitions in the Inter-War Period. British Institute of Energy Economics.

Longhurst, N. and Chilvers, J. (2012) Interdisciplinarity in Transition? A Technical Report on the interdisciplinarity of the Transitions Pathways to A Low Carbon Economy project Norwich, Science, Society and Sustainability Research Group.

Longhurst, N. and Chilvers, J. (2016) Mapping Diverse Visions of UK Energy Transitions: Co-producing Socio-technical imaginaries, 3S Working Paper 2016-28. Norwich: Science, Society and Sustainability Research Group.

Longhurst, N. and Chilvers, J. (2016) A relational co-productionist perspective on shale gas ‘fracking’ in the UK, 3S Working Papers 2016-29. Norwich: Science, Society and Sustainability Research Group.

Robertson, E., O’Grady, A., Barton, J., Robinson, E., Emmanuel-Yusuf, D., Aunedi, M. and Huang, S. (2014). Technological archetypes for a UK energy system transition. Realising Transition Pathways Working Paper 2014/2.

Sherry-Brennan, F. and Pearson, P.J.G. (2015). Spatial governance and energy transitions: The ‘problem’ of rural electrification in England and Wales. Realising Transition Pathways Working Paper 2015/2.

Trutnevyte, E. (2013). Facilitating interdisciplinary learning among the Realising Transition Pathways models. Realising Transition Pathways Working Paper 2013/4.

Realising Transition Pathways

Whole systems analysis for a UK more electric low carbon

energy futureFinal Dissemination Conference

Partners

www.realisingtransitionpathways.org.uk

Contact details:

Professor Geoffrey HammondCo-Principal Investigator:Realising Transition Pathways

Department of Mechanical EngineeringUniversity of BathBathBA2 7AY

T: +44 (0)1225 386168 E: G.P.Hammond@bath.ac.uk

Professor Peter PearsonCo-Principal Investigator:Realising Transition Pathways

Centre for Environmental PolicyImperial CollegeSouth KensingtonLondonSW7 2AZ

T: +44 (0)207 594 9298 E: p.j.pearson@imperial.ac.uk

Lacey-Jane DavisProject Manager:Realising Transition Pathways

Dept of Mechanical EngineeringUniversity of BathClaverton DownBathBA2 7AY

T: +44 (0)1225 384084 E: l.davis@bath.ac.uk