High-temperature hydrogen production by solar thermochemical reactors, metal interfaces, and nanofluid cooling-Reference-Cited by-同舟云学术

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High-temperature hydrogen production by solar thermochemical reactors, metal interfaces, and nanofluid cooling

Published:2020-06-01 Issue:5 Volume:145 Page:2547-2569
ISSN:1388-6150
Container-title:Journal of Thermal Analysis and Calorimetry
language:en
Short-container-title:J Therm Anal Calorim

Author:

Mehrpooya Mehdi,Tabatabaei Seyyed Hessamoddin,Pourfayaz Fathollah,Ghorbani Bahram

Publisher

Springer Science and Business Media LLC

Link

https://link.springer.com/content/pdf/10.1007/s10973-020-09797-3.pdf

Reference44 articles.

1. Koepf E, Alxneit I, Wieckert C, Meier A. A review of high temperature solar driven reactor technology: 25 years of experience in research and development at the Paul Scherrer Institute. Appl Energy. 2017;188(Supplement C):620–51. https://doi.org/10.1016/j.apenergy.2016.11.088.

2. IEA. Key world energy statistics 2015. p. 81, ISBN: 9789264266544. https://doi.org/10.1787/key_energ_stat-2015-en.

3. Müller R, Lipiński W, Steinfeld A. Transient heat transfer in a directly-irradiated solar chemical reactor for the thermal dissociation of ZnO. Appl Therm Eng. 2008;28(5–6):524–31.

4. Kodama T. High-temperature solar chemistry for converting solar heat to chemical fuels. Prog Energy Combust Sci. 2003;29(6):567–97.

5. Steinfeld A. Solar hydrogen production via a two-step water-splitting thermochemical cycle based on Zn/ZnO redox reactions. Int J Hydrogen Energy. 2002;27(6):611–9. https://doi.org/10.1016/S0360-3199(01)00177-X.

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4. Solar-driven thermochemical conversion of H2O and CO2 into sustainable fuels;iScience;2023-11

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