Cited By
2022Frontiers in Climate: Vol. 4Adapting Technology Learning Curves for Prospective Techno-Economic and Life Cycle Assessments of Emerging Carbon Capture and Utilization PathwaysGrant Faber, Andrew Ruttinger, Till Strunge, Tim Langhorst, Arno Zimmermann, Mitchell van der Hulst, Farid Bensebaa, Sheikh Moni, Ling Tao
2022Renewable and Sustainable Energy Reviews: Vol. 160Effects of learning curve models on onshore wind and solar PV cost developments in the USAOmar Castrejon-Campos, Lu Aye, Felix Kin Peng Hui
2022International Journal of Hydrogen Energy: Vol. 47, Issue 11Development of high pressure membraneless alkaline electrolyzerV.V. Solovey, A.A. Shevchenko, M.M. Zipunnikov, A.L. Kotenko, Nguyen Tien Khiem, Bui Dinh Tri, Tran Thanh Hai
2022Energies: Vol. 15, Issue 5Deriving Current Cost Requirements from Future Targets: Case Studies for Emerging Offshore Renewable Energy TechnologiesShona Pennock, Anna Garcia-Teruel, Donald Noble, Owain Roberts, Adrian de Andres, Charlotte Cochrane, Henry Jeffrey
2021Energy Policy: Vol. 156Experience rates of low-carbon domestic heating technologies in the United KingdomRenaldi Renaldi, Richard Hall, Tooraj Jamasb, Anthony P. Roskilly
2021Schmalenbach Journal of Business Research: Vol. 73, Issue 2Cost Dynamics of Clean Energy TechnologiesGunther Glenk, Rebecca Meier, Stefan Reichelstein
2021Economics of Innovation and New Technology: Vol. 30, Issue 1A two-factor learning model for private sector industrial firmsThomas O. Boucher
2021IFAC-PapersOnLine: Vol. 54, Issue 13Managing Technological Change of the Russian Economy Based on the Principle of Technological HomogeneityEvgeny Yu. Khrustalev, Valeriy V. Iosifov, Alexey N. Omelchenko
2021Computers & Industrial Engineering: Vol. 162Achieving grid parity of offshore wind power in China–A comparative analysis among different provincesQiang Tu, Zhuoran Liu, Borui Li, Jianlei Mo
2021Energy Economics: Vol. 93Falling efficiency levels of Indian coal-fired power plants: A slacks-based analysisAbhinav Jindal, Rahul Nilakantan
2021Renewable and Sustainable Energy Reviews: Vol. 145Improving the analytical framework for quantifying technological progress in energy technologiesSrinivasan Santhakumar, Hans Meerman, André Faaij
2021IOP Conference Series: Earth and Environmental Science: Vol. 661, Issue 1Quantitative Evaluation of the Effects of Different Cost Experience Curve on Total Energy Investment Cost: Endogenous VS ExogenousBin Cai, Zimo Xia, Yening Lai, Yan Wen, Xiaofang Song, Feng Xue, Zhiyuan Li
2021Energy Economics: Vol. 104Mills of progress grind slowly? Estimating learning rates for onshore wind energyMagnus Schauf, Sebastian Schwenen
2021Energies: Vol. 14, Issue 9Implementing Radical Innovation in Renewable Energy Experience CurvesPaul Kerr, Donald R. Noble, Jonathan Hodges, Henry Jeffrey
2021Renewable and Sustainable Energy Reviews: Vol. 138Impacts of innovation on renewable energy technology cost reductionsA. Elia, M. Kamidelivand, F. Rogan, B. Ó Gallachóir
2021Energies: Vol. 14, Issue 24Bringing Structure to the Wave Energy Innovation Process with the Development of a Techno-Economic ToolOwain Roberts, Jillian Catherine Henderson, Anna Garcia-Teruel, Donald R. Noble, Inès Tunga, Jonathan Hodges, Henry Jeffrey, Tim Hurst
2020Renewable and Sustainable Energy Reviews: Vol. 124Cost reduction or electricity penetration: Government R&D-induced PV development and future policy schemesH. Ding, D.Q. Zhou, G.Q. Liu, P. Zhou
2020Energy Economics: Vol. 85Innovation modelling and multi-factor learning in wind energy technologyNeil Odam, Frans P. de Vries
2020Renewable and Sustainable Energy Reviews: Vol. 130A review on learning effects in prospective technology assessmentGwenny Thomassen, Steven Van Passel, Jo Dewulf
2020Renewable and Sustainable Energy Reviews: Vol. 131Learning strategies in sustainable energy demonstration projects: What organizations learn from sustainable energy demonstrationsBart Bossink
2020Environmental Science & Technology: Vol. 54, Issue 8Postcombustion Capture or Direct Air Capture in Decarbonizing US Natural Gas Power?Habib Azarabadi, Klaus S. Lackner
2020Energies: Vol. 13, Issue 6Coal Demand and Environmental Regulations: A Case Study of the Polish Power SectorPrzemysław Kaszyński, Jacek Kamiński
2020Nature Energy: Vol. 5, Issue 1Understanding and accounting for the effect of exchange rate fluctuations on global learning ratesJohan Lilliestam, Marc Melliger, Lana Ollier, Tobias S. Schmidt, Bjarne Steffen
2020Global Environmental Politics: Vol. 20, Issue 4Following the Leaders? How to Restore Progress in Global Climate GovernanceJoshua W. Busby, Johannes Urpelainen
2020Applied Energy: Vol. 261Evaluating the economic return to public wind energy research and development in the United StatesRyan Wiser, Dev Millstein
2020Journal of Productivity Analysis: Vol. 54, Issue 2-3Knowledge accumulation in US agriculture: research and learning by doingSansi Yang, C. Richard Shumway
2019Studies on Russian Economic Development: Vol. 30, Issue 2Forecasting the Development Process of Wind Energy in the North Sea Basin Based on Learning CurvesV. A. Kryukov, A. A. Gorlov
2019International Journal of Hydrogen Energy: Vol. 44, Issue 59Estimating future costs of power-to-gas – a component-based approach for technological learningHans Böhm, Sebastian Goers, Andreas Zauner
2019Sustainability: Vol. 11, Issue 8Learning Curve Analysis of Wind Power and Photovoltaics Technology in US: Cost Reduction and the Importance of Research, Development and DemonstrationYi Zhou, Alun Gu
2019Fusion Engineering and Design: Vol. 146Optimization of knowledge transfer in ITERS. Sanz, K. Haupt, A. Maas, R. Jober, B. Prescott
2019Renewable Energy: Vol. 139Understanding dynamics and policy for renewable energy diffusion in ColombiaJessica Arias-Gaviria, Sandra Ximena Carvajal-Quintero, Santiago Arango-Aramburo
2019Energy Strategy Reviews: Vol. 24Analysing future change in the EU's energy innovation systemYeong Jae Kim, Charlie Wilson
2019Sustainability: Vol. 11, Issue 19The Future of Ex-Ante LCA? Lessons Learned and Practical Recommendations Buyle, Audenaert, Billen, Boonen, Van Passel
2018International Journal of Greenhouse Gas Control: Vol. 78The role of carbon capture and storage electricity in attaining 1.5 and 2 °CAdriano Vinca, Marianna Rottoli, Giacomo Marangoni, Massimo Tavoni
2018Journal of Cleaner Production: Vol. 185Can technological learning significantly reduce industrial air pollutants intensity in China?—Based on a multi-factor environmental learning curveWenxi Wang, Bo Yu, Xilong Yao, Tong Niu, Chentao Zhang
2018Energy Policy: Vol. 120Better late than never, but never late is better: Risk assessment of nuclear power construction projectsJ. Portugal-Pereira, P. Ferreira, J. Cunha, A. Szklo, R. Schaeffer, M. Araújo
2018The Energy Journal: Vol. 39, Issue 1What future(s) for liberalized electricity markets: efficient, equitable or innovative?David M Newbery
2018Renewable and Sustainable Energy Reviews: Vol. 82The experience curve theory and its application in the field of electricity generation technologies – A literature reviewSascha Samadi
2018The Engineering Economist: Vol. 63, Issue 4On the generosity and effectiveness of the research and development tax creditThomas O. Boucher
2018Journal of Cleaner Production: Vol. 196Estimating the learning curve of solar PV balance–of–system for over 20 countries: Implications and policy recommendationsAmro M. Elshurafa, Shahad R. Albardi, Simona Bigerna, Carlo Andrea Bollino
2018Energy Policy: Vol. 120Evaluating the case for supporting renewable electricityDavid Newbery
2018Economic History of Developing Regions: Vol. 33, Issue 2Technology and scale changes: The steel industry of a planned economy in a comparative perspectiveHana Nielsen
2018French-Ukrainian Journal of Chemistry: Vol. 6, Issue 2Improvement of the Membrane - less Electrolysis Technology for Hydrogen and Oxygen GenerationVictor Solovey, Nguyen Tien Khiem, Mykola Zipunnikov, Andrii Shevchenko
2018Technological Forecasting and Social Change: Vol. 128How well do experience curves predict technological progress? A method for making distributional forecastsFrançois Lafond, Aimee Gotway Bailey, Jan David Bakker, Dylan Rebois, Rubina Zadourian, Patrick McSharry, J. Doyne Farmer
2018Renewable Energy: Vol. 115Structuring financial incentives for residential solar electric systemsKevin van Blommestein, Tugrul U. Daim, Yonghee Cho, Paul Sklar
2017Renewable and Sustainable Energy Reviews: Vol. 77An innovation system perspective on the drivers of soft cost reduction for photovoltaic deployment: The case of GermanyLars Strupeit
2017Applied Energy: Vol. 208The role of technology diffusion in a decarbonizing world to limit global warming to well below 2 °C: An assessment with application of Global TIMES modelWeilong Huang, Wenying Chen, Gabrial Anandarajah
2017Energy Policy: Vol. 111Deregulation, market competition, and innovation of utilities: Evidence from Japanese electric sectorNan Wang, Gento Mogi
2017International Journal of Hydrogen Energy: Vol. 42, Issue 52Future cost and performance of water electrolysis: An expert elicitation studyO. Schmidt, A. Gambhir, I. Staffell, A. Hawkes, J. Nelson, S. Few
2017Applied Energy: Vol. 202Modeling technological change and its impact on energy savings in the U.S. iron and steel sectorNihan Karali, Won Young Park, Michael McNeil
2017SSRN Electronic Journal Energy Transition, Technological Spillovers and Elasticity of SubstitutionChiara Colesanti Senni
2017Journal of the Association of Environmental and Resource Economists: Vol. 4, Issue 4Environmental and Technology Policy Options in the Electricity Sector: Are We Deploying Too Many?Carolyn Fischer, Louis Preonas, Richard G. Newell
2016Energy Policy: Vol. 91Historical construction costs of global nuclear power reactorsJessica R. Lovering, Arthur Yip, Ted Nordhaus
2016Research Policy: Vol. 45, Issue 10Do deployment policies pick technologies by (not) picking applications?—A simulation of investment decisions in technologies with multiple applicationsTobias S. Schmidt, Benedikt Battke, David Grosspietsch, Volker H. Hoffmann
2016Climatic Change: Vol. 136, Issue 3-4Expert views - and disagreements - about the potential of energy technology R&DLaura Diaz Anadon, Erin Baker, Valentina Bosetti, Lara Aleluia Reis
2016Applied Energy: Vol. 179Towards a green energy economy? The EU Energy Union’s transition to a low-carbon zero subsidy electricity system – Lessons from the UK’s Electricity Market ReformDavid M. Newbery
2016Ecological Economics: Vol. 124Political competition and renewable energy transitions over long time horizons: A dynamic approachMarion Dumas, James Rising, Johannes Urpelainen
2016Research Policy: Vol. 45, Issue 3How predictable is technological progress?J. Doyne Farmer, François Lafond
2016Renewable Energy: Vol. 99Learning curves for harnessing biomass power: What could explain the reduction of its cost during the expansion of China?Boqiang Lin, Jiaxin He
2016Renewable and Sustainable Energy Reviews: Vol. 65Photovoltaic learning rate estimation: Issues and implicationsIgnacio Mauleón
2016European Journal of Operational Research: Vol. 255, Issue 3Emission path planning based on dynamic abatement cost curveJian-Xin Guo, Lei Zhu, Ying Fan
2015Energy Economics: Vol. 52Bending the learning curveJan Witajewski-Baltvilks, Elena Verdolini, Massimo Tavoni
2015Energy Policy: Vol. 87Cost trajectories of low carbon electricity generation technologies in the UK: A study of cost uncertaintyPeter G. Levi, Michael G. Pollitt
2015Energy Policy: Vol. 83Why and how to subsidise energy R+D: Lessons from the collapse and recovery of electricity innovation in the UKTooraj Jamasb, Michael G. Pollitt
2015SSRN Electronic Journal Measuring Productivity When Technologies are Heterogeneous: A Semi-Parametric Approach for Electricity GenerationStefan Seifert
2015SSRN Electronic JournalHow Predictable is Technological Progress?J. Doyne Farmer, Francois Lafond
2015DYNA: Vol. 82, Issue 192How to promote distributed resource supply in a Colombian microgrid with economic mechanism?: System dynamics approachAdriana Arango-Manrique, Sandra Ximena Carvajal-Quintero, Camilo Younes-Velosa
2015Biofuels, Bioproducts and Biorefining: Vol. 9, Issue 1Learning rates and their impacts on the optimal capacities and production costs of biorefineriesTannon Daugaard, Lucas A. Mutti, Mark M. Wright, Robert C. Brown, Paul Componation
2015Journal of Theoretical Politics: Vol. 27, Issue 2When and how can unilateral policies promote the international diffusion of environmental policies and clean technology?Thomas Hale, Johannes Urpelainen
2015Safety Science: Vol. 75Using LGM analysis to identify hidden contributors to risk in the operation of a nuclear power plantCherng G. Ding, Hang-Rung Lin, Chiu-Hui Wu, Ten-Der Jane
2015Applied Energy: Vol. 155Cost-efficient demand-pull policies for multi-purpose technologies – The case of stationary electricity storageBenedikt Battke, Tobias S. Schmidt
2015Energy Policy: Vol. 86A review of learning rates for electricity supply technologiesEdward S. Rubin, Inês M.L. Azevedo, Paulina Jaramillo, Sonia Yeh
2015Energy Policy: Vol. 82Nuclear reactors' construction costs: The role of lead-time, standardization and technological progressMichel Berthélemy, Lina Escobar Rangel
2015Renewable Energy: Vol. 83Economies of scale, learning effects and offshore wind development costsDavid E. Dismukes, Gregory B. Upton
2014SSRN Electronic JournalEnvironmental and Technology Policy Options in the Electricity Sector: Interactions and OutcomesCarolyn Fischer, Richard G. Newell, Louis Preonas
2014SSRN Electronic Journal Path Dependence, Political Competition, and Renewable Energy Policy: A Dynamic ModelMarion Dumas, James Rising, Johannes Urpelainen
2013Mitigation and Adaptation Strategies for Global Change: Vol. 18, Issue 2Carbon capture and storage deployment rates: needs and feasibilityAsbjørn Torvanger, Marianne T. Lund, Nathan Rive
2013SSRN Electronic JournalEnvironmental and Technology Policy Options in the Electricity Sector: Interactions and OutcomesCarolyn Fischer, Richard G. Newell, Louis Preonas
2013Climate Policy: Vol. 13, Issue 1Option value in low-carbon technology policiesGuy Meunier, Dominique Finon
2013Global Environmental Politics: Vol. 13, Issue 2Promoting International Environmental Cooperation Through Unilateral Action: When Can Trade Sanctions Help?Johannes Urpelainen
2013PLoS ONE: Vol. 8, Issue 10Determinants of the Pace of Global Innovation in Energy TechnologiesLuís M. A. Bettencourt, Jessika E. Trancik, Jasleen Kaur, Alejandro Raul Hernandez Montoya
2013Political Studies: Vol. 61, Issue 4How do Competing Interest Groups Influence Environmental Policy? The Case of Renewable Electricity in Industrialized Democracies, 1989–2007Andrew Cheon, Johannes Urpelainen
2012Energy Efficiency: Vol. 5, Issue 4Thermal cooling using low-temperature waste heat: a cost-effective way for industrial companies to improve energy efficiency?Dominik Schall, Simon Hirzel
2012Climatic Change: Vol. 114, Issue 1Technology innovation and diffusion in “less than ideal” climate policies: An assessment with the WITCH modelEnrica De Cian, Valentina Bosetti, Massimo Tavoni
2012Technological Forecasting and Social Change: Vol. 79, Issue 7Inside the learning dynamism inducing the resonance between innovation and high-demand consumption: A case of Japan's high-functional mobile phonesChihiro Watanabe, Genryo Kanno, Yuji Tou
2012SSRN Electronic JournalEstimating the Cost of Future Global Energy SupplyPatrick A. Narbel, Jan Hansen
2012Energy Economics: Vol. 34, Issue 3A review of uncertainties in technology experience curvesSonia Yeh, Edward S. Rubin
2011Energy: Vol. 36, Issue 4Building a low carbon societyMaria da Graça Carvalho, Matteo Bonifacio, Pierre Dechamps
2011Clean Technologies and Environmental Policy: Vol. 13, Issue 5Regional demand-pull scenarios and cost-effective emission mitigationUllash K. Rout
2011Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture: Vol. 225, Issue 6Modelling production ramp-up of engineering productsP D Ball, S Roberts, A Natalicchio, C Scorzafave
2010Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences: Vol. 368, Issue 1923Stimulating investment in energy materials and technologies to combat climate change: an overview of learning curve analysis and niche market supportTimothy J. Foxon
2010Energy Policy: Vol. 38, Issue 1Modelling the costs of energy crops: A case study of US corn and Brazilian sugar caneAurélie Méjean, Chris Hope
2010Annual Review of Resource Economics: Vol. 2, Issue 1Innovation and Climate PolicyDavid Popp
2010Technological Forecasting and Social Change: Vol. 77, Issue 3A review of experience curve analyses for energy demand technologiesMartin Weiss, Martin Junginger, Martin K. Patel, Kornelis Blok
2010SSRN Electronic JournalInnovation in Concentrating Solar Power Technologies: A Study Drawing on Patent DataFrauke G. Braun, Elizabeth Hooper, Robert Wand, Petra Zloczysti
2010SSRN Electronic JournalRelating R&D and Investment Policies to CCS Market Diffusion Through Two-Factor LearningRichard Lohwasser, Reinhard Madlener
2009SSRN Electronic JournalThe 2008 Witch Model: New Model Features and BaselineEnrica De Cian, Valentina Bosetti, Alessandra Sgobbi, Massimo Tavoni
2009SSRN Electronic JournalThe Role of R&D and Technology Diffusion in Climate Change Mitigation: New Perspectives Using the Witch ModelValentina Bosetti, Carlo Carraro, Romain Duval, Alessandra Sgobbi, Massimo Tavoni
2009Energy Policy: Vol. 37, Issue 9Economic efficiency of solar hot water policy in New ZealandKenneth Gillingham
2008Energy Policy: Vol. 36, Issue 1Technological learning in energy–environment–economy modelling: A surveySondes Kahouli-Brahmi
2008The Engineering Economist: Vol. 53, Issue 4Energy Technology Learning Through Deployment in Competitive MarketsClas-Otto Wene
2008Technological Forecasting and Social Change: Vol. 75, Issue 7Forecasting technology costs via the experience curve — Myth or magic?Stephan Alberth


© 2022 International Association for Energy Economics | Privacy Policy | Return Policy