2019
DOI: 10.1088/1742-6596/1240/1/012112
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Proton conducting reversible SOFC integrated in a solar thermal power generation system

Abstract: This paper proposes a novel solar thermal power generation system that employs a proton conducting reversible solid oxide fuel cell (RSOFC-H) and a hybrid photovoltaic thermal module. The photovoltaic thermal module supplies electrical power to the solid oxide fuel cell (SOFC) while operating in electrolysis mode. The stored fuel (Hydrogen), generated by electrolysis mode is utilised to generate power in fuel cell mode. Electrochemical modelling and analysis of RSOFC-H is presented in this paper. The working c… Show more

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Cited by 6 publications
(5 citation statements)
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“…By exploiting the extensive high temperature steam generated by a nuclear reactor, a coupled PCEC system achieved large-scale hydrogen production with a specific energy demand of 38.83 kWh•kg −1 (3.467 kWh• Nm −3 ). 401 A novel solar thermal power generation system consisting of a PCEC stack and hybrid photovoltaic thermal module was developed and possessed a theoretical hydrogen production rate of 1.12 kg•h −1 (12.544 N m 3 •h −1 ), in which electricity and steam consumed by the PCEC stack were provided by the solar photovoltaic unit and solar parabolic trough collector, 402 respectively.…”
Section: Electrolysis In Pcec Stacks and Systemsmentioning
confidence: 99%
“…By exploiting the extensive high temperature steam generated by a nuclear reactor, a coupled PCEC system achieved large-scale hydrogen production with a specific energy demand of 38.83 kWh•kg −1 (3.467 kWh• Nm −3 ). 401 A novel solar thermal power generation system consisting of a PCEC stack and hybrid photovoltaic thermal module was developed and possessed a theoretical hydrogen production rate of 1.12 kg•h −1 (12.544 N m 3 •h −1 ), in which electricity and steam consumed by the PCEC stack were provided by the solar photovoltaic unit and solar parabolic trough collector, 402 respectively.…”
Section: Electrolysis In Pcec Stacks and Systemsmentioning
confidence: 99%
“…Cells based on proton conducting ceramics can be integrated into a solar thermal power generation system. [103] In addition to direct use of the H2 produced, the balance-of-plant can be kept simpler, which in turn affects the cost efficiency (e.g., H2 purification technologies account for up to 14% and 30% of the total discounted capital and operating costs, respectively [150] ) and the final price of the product. [151] PCEC's prospect of instantaneous generation of clean, dry H2 that can be readily compressed by pressurized operation or downstream compression can have majour implications for coupling with other processes and sectors.…”
Section: Accepted Manuscriptmentioning
confidence: 99%
“…Since PCEC technology is not yet so mature, very few data could be found on the integration of proton conducting cell with solar power. However, the work by Ghosh et al [103] provides insights into the integration of a proton conducting fuel cell (PCFC) rather than a PCEC. redrawn after IRENA Report on Green H 2 cost reduction [13] ).…”
Section: Solid Oxide Cell Based Water Electrolysismentioning
confidence: 99%
“…Da die PCEC-Technologie noch nicht so ausgereift ist, konnten nur sehr wenige Daten über die Integration von protonenleitenden Zellen mit Solarenergie gefunden werden. Die Arbeit von Ghosh et al [103] bietet jedoch Einblicke in die Integration einer protonenleitenden Brennstoffzelle (PCFC) und nicht einer PCEC.…”
Section: Wasserelektrolyse Mit Festoxidzellenunclassified
“…Zellen auf der Basis von protonenleitender Keramik können in ein solarthermisches Stromerzeugungssystem integriert werden. [103] Darüber hinaus kann die Anlagenbilanz einfacher gehalten werden, was sich wiederum auf die Kosteneffizienz (z. B. entfallen auf H 2 -Reinigungstechnologien bis zu 14 % bzw.…”
Section: Protonenleitende Elektrolysezellen (Pcec)unclassified