The Experts below are selected from a list of 33 Experts worldwide ranked by ideXlab platform
Bjornar Werswick - One of the best experts on this subject based on the ideXlab platform.
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Recent development in the HMR pre-combustion Gas Power Cycle
Energy Procedia, 2009Co-Authors: Jens B. Smith, Knut Ingvar Aasen, Kjersti Wilhelmsen, Daniel Käka, Turid Risdal, Anita Berglund, Annette Stenersen Østby, Michael Budd, Tor Bruun, Bjornar WerswickAbstract:AbstractThe focus area of the current HMR phase has been HMR process engineering and fabrication and testing of a small-scale monolith module. A new, less complicated HMR Gas Power Cycle has been developed and benchmarked. The efficiency loss and CO2 capture are typically 8 %-point and 85 %, respectively, but more than 90 % of the installed membrane area of the original concepts is rendered superfluous. Small-scale monolith modules have been fabricated and tested under real HMR process conditions, demonstrating promising hydrogen flux and steam reforming according to equilibrium
Jens B. Smith - One of the best experts on this subject based on the ideXlab platform.
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Recent development in the HMR pre-combustion Gas Power Cycle
Energy Procedia, 2009Co-Authors: Jens B. Smith, Knut Ingvar Aasen, Kjersti Wilhelmsen, Daniel Käka, Turid Risdal, Anita Berglund, Annette Stenersen Østby, Michael Budd, Tor Bruun, Bjornar WerswickAbstract:AbstractThe focus area of the current HMR phase has been HMR process engineering and fabrication and testing of a small-scale monolith module. A new, less complicated HMR Gas Power Cycle has been developed and benchmarked. The efficiency loss and CO2 capture are typically 8 %-point and 85 %, respectively, but more than 90 % of the installed membrane area of the original concepts is rendered superfluous. Small-scale monolith modules have been fabricated and tested under real HMR process conditions, demonstrating promising hydrogen flux and steam reforming according to equilibrium
Knut Ingvar Aasen - One of the best experts on this subject based on the ideXlab platform.
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Dynamic Behaviour of an HMR Pre-Combustion Gas Power Cycle
IFAC Proceedings Volumes, 2010Co-Authors: Lei Zhao, Finn Are Michelsen, Bjarne A. Foss, Knut Ingvar AasenAbstract:Copyright © Elsevier Ltd. This is the authors' accepted and refereed manuscript to the article.
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Recent development in the HMR pre-combustion Gas Power Cycle
Energy Procedia, 2009Co-Authors: Jens B. Smith, Knut Ingvar Aasen, Kjersti Wilhelmsen, Daniel Käka, Turid Risdal, Anita Berglund, Annette Stenersen Østby, Michael Budd, Tor Bruun, Bjornar WerswickAbstract:AbstractThe focus area of the current HMR phase has been HMR process engineering and fabrication and testing of a small-scale monolith module. A new, less complicated HMR Gas Power Cycle has been developed and benchmarked. The efficiency loss and CO2 capture are typically 8 %-point and 85 %, respectively, but more than 90 % of the installed membrane area of the original concepts is rendered superfluous. Small-scale monolith modules have been fabricated and tested under real HMR process conditions, demonstrating promising hydrogen flux and steam reforming according to equilibrium
Turid Risdal - One of the best experts on this subject based on the ideXlab platform.
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Recent development in the HMR pre-combustion Gas Power Cycle
Energy Procedia, 2009Co-Authors: Jens B. Smith, Knut Ingvar Aasen, Kjersti Wilhelmsen, Daniel Käka, Turid Risdal, Anita Berglund, Annette Stenersen Østby, Michael Budd, Tor Bruun, Bjornar WerswickAbstract:AbstractThe focus area of the current HMR phase has been HMR process engineering and fabrication and testing of a small-scale monolith module. A new, less complicated HMR Gas Power Cycle has been developed and benchmarked. The efficiency loss and CO2 capture are typically 8 %-point and 85 %, respectively, but more than 90 % of the installed membrane area of the original concepts is rendered superfluous. Small-scale monolith modules have been fabricated and tested under real HMR process conditions, demonstrating promising hydrogen flux and steam reforming according to equilibrium
Tor Bruun - One of the best experts on this subject based on the ideXlab platform.
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Recent development in the HMR pre-combustion Gas Power Cycle
Energy Procedia, 2009Co-Authors: Jens B. Smith, Knut Ingvar Aasen, Kjersti Wilhelmsen, Daniel Käka, Turid Risdal, Anita Berglund, Annette Stenersen Østby, Michael Budd, Tor Bruun, Bjornar WerswickAbstract:AbstractThe focus area of the current HMR phase has been HMR process engineering and fabrication and testing of a small-scale monolith module. A new, less complicated HMR Gas Power Cycle has been developed and benchmarked. The efficiency loss and CO2 capture are typically 8 %-point and 85 %, respectively, but more than 90 % of the installed membrane area of the original concepts is rendered superfluous. Small-scale monolith modules have been fabricated and tested under real HMR process conditions, demonstrating promising hydrogen flux and steam reforming according to equilibrium