has been cited by the following article(s):
[1]
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A critical review of salt hydrates as thermochemical sorption heat storage materials: Thermophysical properties and reaction kinetics
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Solar Energy,
2022 |
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[2]
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Experimental screening of salt hydrates for thermochemical energy storage for building heating application
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Journal of Energy …,
2022 |
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[3]
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Reaction/sorption kinetics of salt hydrates for thermal energy storage
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Journal of Energy Storage,
2022 |
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[4]
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Fishbone structures for thermochemical energy storage in porous systems
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Ernewein, S Lorente - Journal of Energy Storage,
2022 |
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[5]
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Evaluation of SrBr2 Hydration Reaction Rate with Repeated Cycling
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Journal of Materials Science and Chemical …,
2022 |
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[6]
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Salt hydrates for thermochemical energy storage
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2022 |
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[7]
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Hydration reaction kinetics of SrCl2 and SrCl2-cement composite material for thermochemical energy storage
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Solar Energy Materials and Solar Cells,
2021 |
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[8]
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Applications of low-temperature thermochemical energy storage systems for salt hydrates based on material classification: A review
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2021 |
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[9]
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Thermodynamische Eigenschaften und Umsatzverhalten von Salzhydraten zur Speicherung und Transformation von Wärme
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2020 |
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[10]
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Measuring psychological distress among Australians using an online survey
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Australian journal of …,
2020 |
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[11]
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Possibility of Calcium Oxide from Natural Limestone Including Impurities for Chemical Heat Pump
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2020 |
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[12]
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Country Update on Energy Storage for Japan
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2020 |
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[13]
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Thermodynamic and kinetic investigations of the SrBr2 hydration and dehydration reactions for thermochemical energy storage and heat transformation
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2020 |
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[14]
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Constructal design applications in buildings: Radiant cooling panels and thermochemical energy storage
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2020 |
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[15]
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Thermal Energy Storage with Chemical Reactions
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Recent Advancements in Materials and Systems for Thermal Energy Storage,
2019 |
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[16]
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Performance of SrBr2· 6H2O based seasonal thermochemical heat storage in a novel multilayered sieve reactor
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2019 |
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[17]
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Analysis of thermochemical energy storage in an elemental configuration
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2019 |
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[18]
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Constructal Open Reactors for Thermochemical Energy Storage
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2019 |
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[19]
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化学吸附储热技术的研究现状及进展
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2018 |
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[20]
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SrBr2 水和反応を用いた冷熱生成型ケミカルヒートポンプの未反応核モデルによる反応速度解析
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日本機械学会論文集,
2017 |
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[21]
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Experimental evaluation of the heat output/input and coefficient of performance characteristics of a chemical heat pump in the heat upgrading cycle of CaCl2 hydration
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Energy Conversion and Management,
2017 |
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[22]
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High temperature thermochemical heat transformation based on SrBr2
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2017 |
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[1]
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Experimental screening of salt hydrates for thermochemical energy storage for building heating application
Journal of Energy Storage,
2022
DOI:10.1016/j.est.2022.104415
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[2]
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Experimental screening of salt hydrates for thermochemical energy storage for building heating application
Journal of Energy Storage,
2022
DOI:10.1016/j.est.2022.104415
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[3]
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Experimental screening of salt hydrates for thermochemical energy storage for building heating application
Journal of Energy Storage,
2022
DOI:10.1016/j.est.2022.104415
|
|
|
[4]
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Applications of low-temperature thermochemical energy storage systems for salt hydrates based on material classification: A review
Solar Energy,
2021
DOI:10.1016/j.solener.2020.11.055
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[5]
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Possibility of Calcium Oxide from Natural Limestone Including Impurities for Chemical Heat Pump
Energies,
2020
DOI:10.3390/en13040803
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[6]
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Recent Advancements in Materials and Systems for Thermal Energy Storage
Green Energy and Technology,
2019
DOI:10.1007/978-3-319-96640-3_3
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[7]
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Reaction rate analysis with unreacted-core shell model for chemical heat pump cooling mode with SrBr2 hydration
Transactions of the JSME (in Japanese),
2017
DOI:10.1299/transjsme.16-00439
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