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2. Non-renewable and renewable levelized exergy cost of electricity (LExCOE) with focus on its infrastructure: 1900–2050. (2024). Torrubia, Jorge ; Valero, Alicia.
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3. Global employment and skill level requirements for ‘Post-Carbon Europe’. (2024). Wiebe, Kirsten ; Kimmich, Christian ; Bruckner, Martin ; Hubacek, Klaus ; Weinzettel, Jan ; Kerschner, Christian ; Ern, Martin.
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4. Wavelet entropy and complexity–entropy curves approach for energy commodity price predictability amid the transition to alternative energy sources. (2024). Vellucci, Pierluigi ; Mastroeni, Loretta ; Mazzoccoli, Alessandro.
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5. The pitfall in designing future electrical power systems without considering energy return on investment in planning. (2024). Sahin, Hasret ; Breyer, Christian ; Solomon, A A.
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6. Assessing the economic consequences of an energy transition through a biophysical stock-flow consistent model. (2023). Godin, Antoine ; Jacques, Pierre ; Delannoy, Louis ; Jeanmart, Herve ; Yilmaz, Devrim ; Andrieu, Baptiste.
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7. Assessing the economic consequences of an energy transition through a biophysical stock-flow consistent model. (2023). Godin, Antoine ; Jacques, Pierre ; Delannoy, Louis ; Jeanmart, Herve ; Yilmaz, Devrim ; Andrieu, Baptiste.
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8. Energy requirements and carbon emissions for a low-carbon energy transition. (2022). Kallis, Giorgos ; Slamerak, Aljoa.
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9. Overview of the EROI, a tool to measure energy availability through the energy transition. (2022). de Temmerman, Greg ; Pahud, Kevin.
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10. A Comprehensive Societal Energy Return on Investment Study of Portugal Reveals a Low but Stable Value. (2022). Domingos, Tiago ; Brockway, Paul E ; Ecclesia, Marco Vittorio ; Santos, Joo.
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11. Solar, wind and logistic substitution in global energy supply to 2050 – Barriers and implications. (2022). Lowe, R J ; Drummond, P.
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12. Post COVID-19 ENERGY sustainability and carbon emissions neutrality. (2022). van Fan, Yee ; Kleme, Jii Jaromir ; Lee, Chew Tin ; Chong, Cheng Tung.
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13. Solar collective self-consumption: Economic analysis of a policy mix. (2022). Morone, Piergiuseppe ; Gastaldi, Massimo ; D'Adamo, Idiano.
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14. A review of 100% renewable energy scenarios on islands. (2022). Khalili, Siavash ; Bertheau, Paul ; Meschede, Henning ; Breyer, Christian.
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15. A Comprehensive Net Energy Analysis and Outlook of Energy System in China. (2021). Ma, Yue ; Chi, Yuanying ; Feng, Lianyong ; Wang, Jianliang ; Yan, Hongshuo.
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16. Peak oil and the low-carbon energy transition: A net-energy perspective. (2021). Longaretti, Pierre-Yves ; Delannoy, Louis ; Prados, Emmanuel ; Murphy, David J.
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18. Life-Cycle Carbon Emissions and Energy Return on Investment for 80% Domestic Renewable Electricity with Battery Storage in California (U.S.A.). (2020). Fthenakis, Vasilis ; Raugei, Marco ; Leccisi, Enrica ; Peluso, Alessio.
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1. Guide vane profile optimization of pump-turbine for grid connection performance improvement. (2023). Xiao, Ruofu ; Tao, Ran ; Fang, Mingkun ; Pan, Jiale ; Zhang, Fangfang ; Zhu, DI ; Liu, Weichao.
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2. Gas Transition: Renewable Hydrogen’s Future in Eastern Australia’s Energy Networks. (2021). Amal, Rose ; Daiyan, Rahman ; Gurieff, Nicholas ; Moghtaderi, Behdad.
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3. Energy master planning for net-zero emission communities: State of the art and research challenges. (2021). Shandiz, Saeid Charani ; Foliente, Greg ; Rismanchi, Behzad.
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4. Energy storage capacity vs. renewable penetration: A study for the UK. (2021). Xu, Weiqing ; Garvey, S D ; Swinfen-Styles, Lawrie ; Rouse, James ; Cardenas, Bruno ; Hoskin, Adam.
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5. A zero-carbon, reliable and affordable energy future in Australia. (2021). Stocks, Matthew ; Cheng, Cheng ; Lu, Bin ; Nadolny, Anna ; Blakers, Andrew.
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6. Drivers and benefits of shared demand-side battery storage – an Australian case study. (2021). Lenzen, Manfred ; Keck, Felix.
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7. Expediting a renewable energy transition in a privatised market via public policy: The case of south Australia 2004-18. (2021). McGreevy, Michael ; Fisher, Matt ; Henley, Mark ; Baum, Fran ; MacDougall, Colin.
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8. Open model-based analysis of a 100% renewable and sector-coupled energy system–The case of Germany in 2050. (2021). Islam, Md Nasimul.
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9. Impact of the Nature of Energy Management and Responses to Policies Regarding Solar and Wind Pricing: A Qualitative Study of the Australian Electricity Markets. (2021). Alsaedi, Yasir ; Wong, Victor ; Tularam, Gurudeo Anand.
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10. Role of Electric Vehicles in Transition to Low Carbon Power System—Case Study Croatia. (2020). Raos, Sara ; Ilak, Perica ; Rajl, Ivan ; Tomi, Eljko.
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11. Transitioning All Energy in 74 Metropolitan Areas, Including 30 Megacities, to 100% Clean and Renewable Wind, Water, and Sunlight (WWS). (2020). Coughlin, Stephen J ; Smith, Miles ; Jacobson, Mark Z ; Wood, Kelyn D ; Nelli, Daniel ; Tan, Chor ; Jaeggli, Caitlin ; von Krauland, Anna-Katharina ; Shu, Yanbo.
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12. Life-Cycle Carbon Emissions and Energy Return on Investment for 80% Domestic Renewable Electricity with Battery Storage in California (U.S.A.). (2020). Fthenakis, Vasilis ; Raugei, Marco ; Leccisi, Enrica ; Peluso, Alessio.
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13. Decarbonization of Australia’s Energy System: Integrated Modeling of the Transformation of Electricity, Transportation, and Industrial Sectors. (2020). Hare, William ; Fuentes, Ursula ; Aboumahboub, Tino ; Brecha, Robert J ; Schaeffer, Michiel ; Gidden, Matthew J ; Welder, Lara ; Shrestha, Himalaya Bir ; Geiges, Andreas.
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14. A comprehensive review of variable renewable energy levelized cost of electricity. (2020). Shen, Wei ; Sayeef, Saad ; Osman, Peter ; Meng, KE ; Qiu, Jing ; Hayward, Jennifier A ; Dong, Zhaoyang ; Chen, XI.
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15. Technical feasibility of Japan-Taiwan-Philippines HVdc interconnector to the Asia Pacific Super Grid. (2020). di Santo, Silvio Giuseppe ; Itiki, Rodney ; Manjrekar, Madhav ; Fernando, Luis.
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16. Existing and new arrangements of pumped-hydro storage plants. (2020). Schneider, Paulo Smith ; Franco, Paulo Sergio ; de Castro, Nivalde Jose ; Hunt, Julian David ; Zakeri, Behnam ; Nascimento, Andreas ; Wada, Yoshihide ; Brando, Roberto ; Lopes, Rafael.
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17. Current energy policies and possible transition scenarios adopting renewable energy: A case study for Bangladesh. (2020). Khan, Musharof ; Ram, Manish ; Breyer, Christian ; Gulagi, Ashish ; Solomon, A A.
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18. Forecasting and assessment of the 2030 australian electricity mix paths towards energy transition. (2020). Castro, Rui ; Derosa, Luca.
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19. Factors influencing intention to invest in a community owned renewable energy initiative in Queensland, Australia. (2020). Finch, Sue ; Thomas, Sebastian ; Proudlove, Richard.
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20. Implications of Trends in Energy Return on Energy Invested (EROI) for Transitioning to Renewable Electricity. (2020). Wiedmann, T ; Diesendorf, M.
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21. GIS-based modelling of electric-vehicle–grid integration in a 100% renewable electricity grid. (2020). Li, Mengyu ; Lenzen, Manfred ; Nansai, Keisuke ; Wang, Dai.
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22. Optimization of Solar Panel Orientation Considering Temporal Volatility and Scenario-Based Photovoltaic Potential: A Case Study in Seoul National University. (2019). Oh, Myeongchan ; Park, Hyeong-Dong.
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23. Long-Term Electricity Scenarios for the MENA Region: Assessing the Preferences of Local Stakeholders Using Multi-Criteria Analyses. (2019). Bohm, Sonke ; Far, Shahrazad ; Zelt, Ole ; Blohm, Marina ; Kruger, Christine.
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24. Performance of concentrating solar power plants in a whole-of-grid context. (2019). Yousefzadeh, Moslem ; Lenzen, Manfred.
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25. HVDC Transmission: Technology Review, Market Trends and Future Outlook. (2019). Baales, Santiago ; Ellabban, Omar ; Adam, Grain ; MacIver, Callum ; Alassi, Abdulrahman.
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26. Prospects of decentralized renewable energy to improve energy access: A resource-inventory-based analysis of South Africa. (2019). Baruah, Debendra Chandra ; Enweremadu, Christopher Chintua.
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27. Full energy system transition towards 100% renewable energy in Germany in 2050. (2019). Hansen, Kenneth ; Skov, Iva Ridjan ; Mathiesen, Brian Vad.
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28. Feasibility of 100% renewable energy-based electricity production for cities with storage and flexibility. (2019). Strobbe, Matthias ; Mets, Kevin ; Develder, Chris ; Narayanan, Arun.
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29. Simulation of a power system with large renewable penetration. (2019). Fiedler, T.
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30. Low carbon alternatives and their implications for Fijis electricity sector. (2019). Prasad, Ravita D ; Raturi, Atul.
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31. Status and perspectives on 100% renewable energy systems. (2019). Hansen, Kenneth ; Lund, Henrik ; Breyer, Christian.
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32. The impact of battery energy storage for renewable energy power grids in Australia. (2019). Li, Mengyu ; Lenzen, Manfred ; Keck, Felix ; Vassallo, Anthony.
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33. Optimising energy flows and synergies between energy networks. (2019). Badami, Marco ; Fambri, Gabriele.
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34. A GIS-based method to identify potential sites for pumped hydro energy storage - Case of Iran. (2019). Ghorbani, Narges ; Makian, Hamed ; Breyer, Christian.
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35. Clean and secure power supply: A system dynamics based appraisal. (2019). Zapata, Sebastian ; Castaneda, Monica ; Dyner, Isaac ; Franco, Carlos Jaime.
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36. Some questions concerning the Blakers et al. case that pumped hydro storage can enable 100% electricity supply. (2019). Trainer, Ted.
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37. Are emission reduction policies effective under climate change conditions? A backcasting and exploratory scenario approach using the LEAP-OSeMOSYS Model. (2019). Chaiechi, Taha ; Emodi, Nnaemeka Vincent ; Alam Beg, A. B. M. Rabiul, .
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38. Curtailment-storage-penetration nexus in the energy transition. (2019). Bogdanov, Dmitrii ; Breyer, Christian ; Solomon, A A.
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39. A Review of Projected Power-to-Gas Deployment Scenarios. (2018). Eveloy, Valerie ; Gebreegziabher, Tesfaldet.
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40. Transformation towards a Renewable Energy System in Brazil and Mexico—Technological and Structural Options for Latin America. (2018). Naegler, Tobias ; Simon, Sonja ; Gils, Hans Christian.
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41. The feasibility of 100% renewable electricity systems: A response to critics. (2018). Diesendorf, Mark ; Elliston, Ben.
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42. Modeling the carbon budget of the Australian electricity sectors transition to renewable energy. (2018). Wiedmann, Thomas ; Hamilton, Nicholas E ; Diesendorf, Mark ; Howard, Bahareh Sara.
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43. Matching demand with supply at low cost in 139 countries among 20 world regions with 100% intermittent wind, water, and sunlight (WWS) for all purposes. (2018). Cameron, Mary A ; Jacobson, Mark Z ; Delucchi, Mark A ; Mathiesen, Brian V.
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44. Techno-economic evaluation for hybrid renewable energy system: Application and merits. (2018). Xue, Xinpei ; Ma, Weiwu ; Liu, Gang.
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45. Resource portfolio design considerations for materially-efficient planning of 100% renewable electricity systems. (2018). Samuelsen, Scott ; Tarroja, Brian ; Shaffer, Brendan P.
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46. Solar driven net zero emission electricity supply with negligible carbon cost: Israel as a case study for Sun Belt countries. (2018). Bogdanov, Dmitrii ; Breyer, Christian ; Solomon, A A.
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47. Adoption of solar and wind energy: The roles of carbon pricing and aggregate policy support. (2018). Burke, Paul ; Best, Rohan.
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48. An assessment methodology of sustainable energy transition scenarios for realizing energy neutral neighborhoods. (2018). Zeiler, Wim ; Maassen, Wim ; Labeodan, Timilehin ; Walker, Shalika ; Boxem, Gert.
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49. Geographic information system algorithms to locate prospective sites for pumped hydro energy storage. (2018). Stocks, Matthew ; Anderson, Kirsten ; Lu, Bin ; Blakers, Andrew.
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50. An input-output based net-energy assessment of an electricity supply industry. (2017). Palmer, Graham.
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