Energy Conversion and Management
 2022
DOI: 10.1016/j.enconman.2022.115673
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Finite-time energy conversion in a hybrid cycle combining electrochemical, combustion and thermochemical recuperation processes

David Diskin
1
,
Leonid Tartakovsky
2
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Cited by 19 publications
(2 citation statements)
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“…In another recent study, the effects of the hybrid fuel cell (FC)-ICE cycl were examined numerically by Diskin and Tartakovsky [36]. The analysis s hybrid cycle combining electrochemical, combustion, and thermochemica processes can reach thermal efficiency values above 70%.…”
mentioning
confidence: 99%
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Improving Thermal Efficiency of Internal Combustion Engines: Recent Progress and Remaining Challenges

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“…In another recent study, the effects of the hybrid fuel cell (FC)-ICE cycl were examined numerically by Diskin and Tartakovsky [36]. The analysis s hybrid cycle combining electrochemical, combustion, and thermochemica processes can reach thermal efficiency values above 70%.…”
mentioning
confidence: 99%
“…The analysis s hybrid cycle combining electrochemical, combustion, and thermochemica processes can reach thermal efficiency values above 70%. In another recent study, the effects of the hybrid fuel cell (FC)-ICE cycle on efficiency were examined numerically by Diskin and Tartakovsky [36]. The analysis shows that the hybrid cycle combining electrochemical, combustion, and thermochemical recuperation processes can reach thermal efficiency values above 70%.…”
mentioning
confidence: 99%

Improving Thermal Efficiency of Internal Combustion Engines: Recent Progress and Remaining Challenges

Dahham
1
,
Wei
2
,
Pan
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2022
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show abstract

Power output and efficiency optimization of endoreversible non-isothermal chemical engine via Lewis analogy

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2023
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Environmental benefits of combined electro-thermo-chemical technology over battery-electric powertrains

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