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Работы, на которые ссылается эта работа

Работ: 35

Работа: Investigation into the electrolysis performance of a novel directly solar irradiated solid oxide electrolysis cell

  1. Achieving high-efficiency hydrogen production using planar solid-oxide electrolysis stacks

    Qingshan Li, Yifeng Zheng, Wanbing Guan +3

    Статья2014Цитирований: 4
    ABI

  2. Feasibility of high efficient solar hydrogen generation system integrating photovoltaic cell/photon-enhanced thermionic emission and high-temperature electrolysis cell

    Hongsheng Wang, Hui Kong, Zhigang Pu +2

    Статья2020Цитирований: 3
    ABI

  3. High Temperature Electrolysis in Alkaline Cells, Solid Proton Conducting Cells, and Solid Oxide Cells

    Sune Dalgaard Ebbesen, Søren Højgaard Jensen, Anne Hauch +1

    Обзорная статья2014Цитирований: 3
    ABI

  4. The role of hydrogen in low carbon energy futures–A review of existing perspectives

    Emma S. Hanley, Paul Deane, Brian Ó Gallachóir

    Статья2017Цитирований: 3
    ABI

  5. Solar heat integrated solid oxide steam electrolysis for highly efficient hydrogen production

    Günter Schiller, Michael Lang, Patric Szabo +4

    Статья2019Цитирований: 3
    ABI

  6. Recent advances in solid oxide cell technology for electrolysis

    Anne Hauch, Rainer Küngas, Peter Blennow +4

    Обзорная статья2020Цитирований: 3
    ABI

  7. Techno-economic analysis and Monte Carlo simulation of green hydrogen production technology through various water electrolysis technologies

    Dohyung Jang, Jae-Dong Kim, Dongmin Kim +2

    Статья2022Цитирований: 3
    ABI

  8. Techno-economic analysis of solar hydrogen production via PV power/concentrated solar heat driven solid oxide electrolysis with electrical/thermal energy storage

    Yumeng Zhang, Zhuo Wang, Zhiyu Du +4

    Статья2023Цитирований: 3
    ABI

  9. Без названия

    ДругоеЦитирований: 3
    ABI

  10. Model-assisted identification of solid oxide cell elementary processes by electrochemical impedance spectroscopy measurements

    Priscilla Caliandro, Arata Nakajo, Stefan Diethelm +1

    Статья2019Цитирований: 3
    ABI

  11. Configuration design and performance optimum analysis of a solar-driven high temperature steam electrolysis system for hydrogen production

    Houcheng Zhang, Shanhe Su, Xiaohang Chen +2

    Статья2013Цитирований: 2
    ABI

  12. An overview of hydrogen gas production from solar energy

    Simon Koumi Ngoh, Donatien Njomo

    Статья2012Цитирований: 2
    ABI

  13. High-temperature electrolysis for large-scale hydrogen and syngas production from nuclear energy – summary of system simulation and economic analyses

    James E. O’Brien, M. G. McKellar, Edwin A. Harvego +1

    Статья2009Цитирований: 2
    ABI

  14. Efficiency evaluation of high-temperature steam electrolytic systems coupled with different nuclear reactors

    Wenqiang Zhang, Bo Yu, Jingming Xu

    Статья2012Цитирований: 2
    ABI

  15. Economic assessment of hydrogen production from solar driven high-temperature steam electrolysis process

    Deepak Yadav, Rangan Banerjee

    Статья2018Цитирований: 2
    ABI

  16. Design and optimization of a combined solar thermophotovoltaic power generation and solid oxide electrolyser for hydrogen production

    Raheleh Daneshpour, Mehdi Mehrpooya

    Статья2018Цитирований: 2
    ABI

  17. Model analysis on hydrogen production by hybrid system of SOEC and solar energy

    Yantao Lu, Jason Chak Yan Li, Loembe Souamy +3

    Статья2017Цитирований: 2
    ABI

  18. Solar hydrogen production: Techno-economic analysis of a parabolic dish-supported high-temperature electrolysis system

    Luca Mastropasqua, Ilaria Pecenati, Andrea Giostri

    Статья2019Цитирований: 2
    ABI

  19. Integrated solar-driven high-temperature electrolysis operating with concentrated irradiation

    Meng Lin, Clemens Suter, Stefan Diethelm +2

    Статья2022Цитирований: 2
    ABI

  20. Efficiency analysis and operating condition optimization of solid oxide electrolysis system coupled with different external heat sources

    Tonghui Cui, Jianzhong Zhu, Zewei Lyu +4

    Статья2023Цитирований: 2
    ABI

  21. Thermal and electrochemical performance analysis of an integrated solar SOEC reactor for hydrogen production

    Qiangqiang Zhang, Zheshao Chang, Mingkai Fu +2

    Статья2023Цитирований: 2
    ABI

  22. Без названия

    ДругоеЦитирований: 2
    ABI

  23. A techno-economic perspective on solar-to-hydrogen concepts through 2025

    Thomas Grube, Julian Reul, Markus Reuß +6

    Статья2020Цитирований: 2
    ABI

  24. Без названия

    ДругоеЦитирований: 1
    ABI

  25. Без названия

    ДругоеЦитирований: 1
    ABI