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2. Hydrogen powered heavy-duty trucks may contribute CO2 emission increase instead of reduction under current hydrogen production structure in China. (2025). Wu, Yiheng ; Zhao, Shuqing ; Bai, Yucai ; Chen, Feng ; Cheng, Jinping ; Xu, Hao ; Lu, Yin.
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8. Synergistic Air Pollutants and GHG Reduction Effect of Commercial Vehicle Electrification in Guangdong’s Public Service Sector. (2021). Luo, Yutao ; Li, Yixi ; Zhu, Qianru ; Cui, Jixian ; Liu, Jianjun.
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1. LCA of a Proton Exchange Membrane Fuel Cell Electric Vehicle Considering Different Power System Architectures. (2023). Colnago, Silvia ; Latorrata, Saverio ; Piegari, Luigi ; Dotelli, Giovanni ; Gottardo, Gianmarco ; Peressut, Andrea Basso.
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2. Assessing the prospect of deploying green methanol vehicles in China from energy, environmental and economic perspectives. (2023). Jia, Tingwen ; Negnevitsky, Michael ; Wang, Liang ; Zhao, Gang ; Li, Chengjiang ; Hu, Yu-Jie.
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3. Reversible Power-to-Gas systems for energy conversion and storage. (2022). Reichelstein, Stefan ; Glenk, Gunther.
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4. Electrolysis as a Flexibility Resource on Energy Islands: The Case of the North Sea. (2022). Egging-Bratseth, Rudolf ; Werner, Yannick ; Kazempour, Jalal ; Luth, Alexandra.
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5. Beyond Traditional Energy Sector Coupling: Conserving and Efficient Use of Local Resources. (2022). Maldet, Matthias ; Auer, Hans ; Lettner, Georg ; Schwabeneder, Daniel ; Loschan, Christoph ; Corinaldesi, Carlo.
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6. Fusion of Vermicompost and Sewage Sludge as Dark Fermentative Biocatalyst for Biohydrogen Production: A Kinetic Study. (2022). Gokuladoss, Velvizhi ; Karthikeyan, Balakumar.
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7. Life Cycle Prediction Assessment of Battery Electrical Vehicles with Special Focus on Different Lithium-Ion Power Batteries in China. (2022). Hao, Zhuo ; Chen, Yisong ; Yang, Yang ; Fu, Pei ; Lan, Libo ; Zhao, Jianyou ; Luo, Geng.
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8. Comparative well-to-pump assessment of fueling pathways for zero-carbon transportation in China: Hydrogen economy or methanol economy?. (2022). Zhu, Xun ; Chen, Rong ; Liao, Qiang ; Djilali, Ned ; Ye, Dingding ; Yang, Yang.
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9. Potential for hydrogen production from sustainable biomass with carbon capture and storage. (2022). Mazzotti, Marco ; Rosa, Lorenzo.
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10. Projected cost analysis of hybrid methanol production from tri-reforming of methane integrated with various water electrolysis systems: Technical and economic assessment. (2022). Byun, Manhee ; Lee, Hyunjun ; Lim, Hankwon.
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11. Continuous and flexible Renewable-Power-to-Methane via liquid CO2 energy storage: Revisiting the techno-economic potential. (2022). Liu, YI ; Landon, Robert Stephen ; Qi, Meng ; Park, Jinwoo ; Kim, Jeongdong ; Moon, IL.
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12. Large-scale CO2 disposal/storage in bedded rock salt caverns of China: An evaluation of safety and suitability. (2022). Liu, Wei ; Qiao, Weibiao ; Fan, Jinyang ; Chen, Jie ; Jiang, Deyi ; Daemen, J. J. K., ; Zhang, Xiong.
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13. A techno-economic assessment framework for hydrogen energy storage toward multiple energy delivery pathways and grid services. (2022). Ramachandran, Thiagarajan ; Holladay, Jamie ; Wu, DI ; Wang, Dexin.
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14. Greenhouse gas life cycle analysis of Chinas fuel cell medium- and heavy-duty trucks under segmented usage scenarios and vehicle types. (2022). Ou, Xunmin ; Peng, Tianduo ; Zhou, Sheng ; Ren, Lei.
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15. Classifying and modelling demand response in power systems. (2022). Martinez-Gordon, Rafael ; Sijm, Jos ; Morales-Espaa, German.
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16. Green hydrogen investments: Investigating the option to wait. (2022). Brown, Solomon ; Kataria, Mohit ; Biggins, Flora ; Roberts, Diarmid.
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17. Is blue hydrogen a bridging technology? - The limits of a CO2 price and the role of state-induced price components for green hydrogen production in Germany. (2022). Muller, Viktor Paul ; Ragwitz, Mario ; Winkler, Jenny ; George, Jan Frederick.
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18. Country-specific cost projections for renewable hydrogen production through off-grid electricity systems. (2022). van der Zwaan, Bob ; Detz, Remko J ; Weeda, Marcel.
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19. How flexible electricity demand stabilizes wind and solar market values: The case of hydrogen electrolyzers. (2022). Ruhnau, Oliver.
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20. Optimal day-ahead dispatch of an alkaline electrolyser system concerning thermal–electric properties and state-transitional dynamics. (2022). Zheng, YI ; You, Shi ; Munster, Marie ; Bindner, Henrik W.
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21. An overview of hydrogen prospects: Economic, technical and policy considerations. (2022). Inchauspe, Julian ; Aguilera, Roberto F.
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22. Market integration of power-to-gas during the energy transition—Assessing the role of carbon pricing. (2021). Bucksteeg, Michael ; Mikurda, Jennifer ; Weber, Christoph.
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23. Simultaneity of green energy and hydrogen production: Analysing the dispatch of a grid-connected electrolyser. (2021). Theile, Philipp ; Schlund, David.
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24. Production of hydrogen from offshore wind in China and cost-competitive supply to Japan. (2021). Song, Shaojie ; Sherman, Peter ; McElroy, Michael B ; Lin, Haiyang ; Nielsen, Chris P ; Yang, XI ; Chen, Xinyu.
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25. Life Cycle Assessment of Electric Vehicles and Hydrogen Fuel Cell Vehicles Using the GREET Model—A Comparative Study. (2021). So, Stuart ; Hin, Eve Man ; Cheung, Eugene Yin ; Kuen, Danny Chi ; Tsang, Chi-Wing.
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26. Sustainability Indicators for the Manufacturing and Use of a Fuel Cell Prototype and Hydrogen Storage for Portable Uses. (2021). Banacloche Sánchez, Santacruz ; Lechon, Yolanda ; Ferreira-Aparicio, Paloma ; Garrain, Daniel ; Martinez-Chaparro, Antonio.
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27. Removing the Bottleneck on Wind Power Potential to Create Liquid Fuels from Locally Available Biomass. (2021). Cheng, Shuo ; Cross, Jeffrey S ; Garcia, Abraham Castro.
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28. A perspective on the efficacy of green gas production via integration of technologies in novel cascading circular bio-systems. (2021). Lin, Richen ; O'Shea, Richard ; Murphy, Jerry D ; Deng, Chen ; Wu, Benteng.
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29. Investment equilibrium of an integrated multi–stakeholder electricity–gas–hydrogen system. (2021). Wei, Zhinong ; Lu, Yuping ; Gu, Wei ; Zhou, Suyang ; Chen, Sheng ; Pan, Guangsheng.
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30. Tapping hydrogen fuel from the ocean: A review on photocatalytic, photoelectrochemical and electrolytic splitting of seawater. (2021). Verbruggen, Sammy W ; Dingenen, Fons.
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31. Investigation on the influences of interlayer contents on stability and usability of energy storage caverns in bedded rock salt. (2021). Liu, Wei ; Qiao, Weibiao ; Zhang, Nan ; Fan, Jinyang ; Jiang, Deyi.
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32. Mills of progress grind slowly? Estimating learning rates for onshore wind energy. (2021). Schwenen, Sebastian ; Schauf, Magnus.
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33. Estimating long-term global supply costs for low-carbon hydrogen. (2021). Schulte, Simon ; Schonfisch, Max ; Brandle, Gregor.
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34. Two-level hierarchical model predictive control with an optimised cost function for energy management in building microgrids. (2021). Gaubert, Jean-Paul ; Vechiu, Ionel ; Yamashita, Daniela Yassuda.
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35. A fork in the road: Which energy pathway offers the greatest energy efficiency and CO2 reduction potential for low-carbon vehicles?. (2021). Haugen, Molly J ; Paoli, Leonardo ; Cullen, Jonathan ; Cebon, David ; Boies, Adam M.
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36. Heat Decarbonisation Modelling Approaches in the UK: An Energy System Architecture Perspective. (2020). Cassarino, Tiziano Gallo ; Pye, Steve ; Lowe, Robert ; Barrett, Mark ; Chiu, Lai Fong ; Scamman, Daniel ; Solano-Rodriguez, Baltazar.
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37. At What Cost Can Renewable Hydrogen Offset Fossil Fuel Use in Ireland’s Gas Network?. (2020). Gunawan, Tubagus Aryandi ; Blount, Paul ; Carton, James G ; Burchill, James ; Singlitico, Alessandro.
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38. Decarbonization of the Iron and Steel Industry with Direct Reduction of Iron Ore with Green Hydrogen. (2020). Assadi, Mohsen ; Somehsaraei, Homam Nikpey ; Bhaskar, Abhinav.
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39. Power-to-methane, coupling CO2 capture with fuel production: An overview. (2020). Martin-Marroquin, J M ; Hidalgo, D.
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40. 100% renewable fueled mine. (2020). Abraho, Raphael ; Carvalho, Monica ; Millar, Dean ; Romero, Alberto.
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41. What are the critical barriers to the development of hydrogen refueling stations in China? A modified fuzzy DEMATEL approach. (2020). Wu, Yunna ; Dai, Shuyu ; Xu, Chuanbo.
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42. Is the coherence of coal phase-out and electrolytic hydrogen production the golden path to effective decarbonisation?. (2020). Letmathe, Peter ; Klockner, Kai.
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43. Should we inject hydrogen into gas grids? Practicalities and whole-system value chain optimisation. (2020). Samsatli, Sheila ; Quarton, Christopher J.
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44. Power-to-hydrogen as seasonal energy storage: an uncertainty analysis for optimal design of low-carbon multi-energy systems. (2020). Gabrielli, Paolo ; Petkov, Ivalin.
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45. Bi-level mixed-integer planning for electricity-hydrogen integrated energy system considering levelized cost of hydrogen. (2020). Wu, Zhi ; Lu, Yuping ; Gu, Wei ; Zhou, Suyang ; Qiu, Haifeng ; Pan, Guangsheng.
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46. A supply curve of electricity-based hydrogen in a decarbonized European energy system in 2050. (2020). Pfluger, Benjamin ; Lux, Benjamin.
    In: Applied Energy.
    RePEc:eee:appene:v:269:y:2020:i:c:s0306261920305237.

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47. The research and development of waste-to-hydrogen technologies and systems. (2020). Ok, Yong Sik ; Wang, Xiaonan ; You, Siming.
    In: Applied Energy.
    RePEc:eee:appene:v:268:y:2020:i:c:s0306261920305274.

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48. Hydrogen from offshore wind: Investor perspective on the profitability of a hybrid system including for curtailment. (2020). Ahmed, Shorif ; McDonagh, Shane ; Murphy, Jerry D ; Desmond, Cian.
    In: Applied Energy.
    RePEc:eee:appene:v:265:y:2020:i:c:s0306261920302440.

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49. Production of synthetic natural gas from industrial carbon dioxide. (2020). Chauvy, Remi ; Lybaert, Paul ; Dubois, Lionel ; de Weireld, Guy ; Thomas, Diane.
    In: Applied Energy.
    RePEc:eee:appene:v:260:y:2020:i:c:s0306261919319361.

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50. Transitioning remote Arctic settlements to renewable energy systems – A modelling study of Longyearbyen, Svalbard. (2020). Haugan, Peter M ; Ringkjob, Hans-Kristian ; Nybo, Astrid.
    In: Applied Energy.
    RePEc:eee:appene:v:258:y:2020:i:c:s0306261919317660.

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51. Shared Capacity and Levelized Cost with Application to Power-to-Gas Technology. (2019). Glenk, Gunther.
    In: VfS Annual Conference 2019 (Leipzig): 30 Years after the Fall of the Berlin Wall - Democracy and Market Economy.
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52. Biological CO 2 -Methanation: An Approach to Standardization. (2019). Karl, Jurgen ; Gleich, Jasmin ; Huber, Harald ; Weidlich, Tobias ; Mors, Friedemann ; Trabold, Thomas ; Hackl, Florian ; Brotsack, Raimund ; Ortloff, Felix ; Sterner, Michael ; Schmack, Doris ; Neubert, Michael ; Hafenbradl, Doris ; Kohlmayer, Matthias ; Stabenau, Carsten ; Thema, Martin ; Bellack, Annett ; Horl, Manuel.
    In: Energies.
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53. Future Hydrogen Markets for Transportation and Industry: The Impact of CO 2 Taxes. (2019). Praktiknjo, Aaron ; Grube, Thomas ; Cerniauskas, Simonas ; Robinius, Martin ; Stolten, Detlef.
    In: Energies.
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54. Evaluation of the Two-Stage Fermentative Hydrogen Production from Sugar Beet Molasses. (2019). Grabarczyk, Robert ; Trafczynski, Marian ; Urbaniec, Krzysztof ; Wernik, Jacek.
    In: Energies.
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55. Power-to-Gas: Electrolysis and methanation status review. (2019). Thema, M ; Sterner, M ; Bauer, F.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:112:y:2019:i:c:p:775-787.

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56. Synergistic Value in Vertically Integrated Power-to-Gas Energy Systems. (2019). Reichelstein, Stefan J ; Glenk, Gunther.
    In: CESifo Working Paper Series.
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