Impact of turbine characteristics on low temperature organic Rankine cycles operating with zeotropic and azeotropic mixtures

The urgent need to mitigate the environmental impacts of fossil fuel combustion has spurred interest in renewable energy sources for electricity generation, particularly solar organic Rankine cycles (ORCs). This study investigates the potential of fluid mixtures in low-temperature ORCs, focusing on...

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Published inCase studies in thermal engineering Vol. 59; p. 104463
Main Authors Alshammari, Fuhaid, Alatawi, Ibrahim, Alshammari, Ahmed S.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2024
Elsevier
Subjects
Fluid mixtures
Low temperature heat recovery
Organic Rankine cycle
Radial inflow turbine
turbine efficiency
Low temperature heat recovery
Fluid mixtures
turbine efficiency
Organic Rankine cycle
Radial inflow turbine
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Abstract The urgent need to mitigate the environmental impacts of fossil fuel combustion has spurred interest in renewable energy sources for electricity generation, particularly solar organic Rankine cycles (ORCs). This study investigates the potential of fluid mixtures in low-temperature ORCs, focusing on a radial turbine. While fluid mixtures have shown promise for heat recovery in low-temperature applications, previous research often overlooked turbine characteristics by assuming constant efficiencies. This study set out to examine the impact of turbine characteristics on the ORC performance when adapting fluid mixtures by coupling a cycle-turbine model incorporated with real gas analysis. The outcomes of the turbine model are exported to the cycle model to evaluate its performance. Results reveal significant variations in cycle performance due to turbine power and efficiency, outweighing the effects of temperature glide in fluid mixtures. Although fluid mixtures enhance thermal compatibility with heat sources, certain pure fluids exhibit superior cycle performance owing to better turbine characteristics. Moreover, the assumption of constant turbine efficiency compromises result accuracy by up to 45 % compared to dynamic turbine efficiency. Notably, the isobutane/isopentane mixture (0.7/0.3) emerges as the most favourable, achieving a turbine power of 48.90 kW, turbine efficiency of 71 %, and thermal efficiency of 12.29 %.
AbstractList The urgent need to mitigate the environmental impacts of fossil fuel combustion has spurred interest in renewable energy sources for electricity generation, particularly solar organic Rankine cycles (ORCs). This study investigates the potential of fluid mixtures in low-temperature ORCs, focusing on a radial turbine. While fluid mixtures have shown promise for heat recovery in low-temperature applications, previous research often overlooked turbine characteristics by assuming constant efficiencies. This study set out to examine the impact of turbine characteristics on the ORC performance when adapting fluid mixtures by coupling a cycle-turbine model incorporated with real gas analysis. The outcomes of the turbine model are exported to the cycle model to evaluate its performance. Results reveal significant variations in cycle performance due to turbine power and efficiency, outweighing the effects of temperature glide in fluid mixtures. Although fluid mixtures enhance thermal compatibility with heat sources, certain pure fluids exhibit superior cycle performance owing to better turbine characteristics. Moreover, the assumption of constant turbine efficiency compromises result accuracy by up to 45 % compared to dynamic turbine efficiency. Notably, the isobutane/isopentane mixture (0.7/0.3) emerges as the most favourable, achieving a turbine power of 48.90 kW, turbine efficiency of 71 %, and thermal efficiency of 12.29 %.
ArticleNumber 104463
Author Alshammari, Ahmed S.
Alatawi, Ibrahim
Alshammari, Fuhaid
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Keywords Low temperature heat recovery
Fluid mixtures
turbine efficiency
Organic Rankine cycle
Radial inflow turbine
Language English
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SSID ssj0001738144
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Snippet The urgent need to mitigate the environmental impacts of fossil fuel combustion has spurred interest in renewable energy sources for electricity generation,...
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elsevier
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Publisher
StartPage 104463
SubjectTerms Fluid mixtures
Low temperature heat recovery
Organic Rankine cycle
Radial inflow turbine
turbine efficiency
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Title Impact of turbine characteristics on low temperature organic Rankine cycles operating with zeotropic and azeotropic mixtures
URI https://dx.doi.org/10.1016/j.csite.2024.104463
https://doaj.org/article/c4cbe7cd0d90479b829a05923930d85c
Volume 59
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