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Fundamental Limits of an Irreversible Heat Engine
by
Fu, Rui
in
Cold
/ Energy
/ Energy dissipation
/ Entropy
/ Equilibrium
/ Heat engines
/ maximal power
/ Optimal control
/ optimal control strategy
/ stochastic thermodynamics
/ Temperature
/ Thermodynamics
/ Upper bounds
/ Wasserstein distance
2024
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Fundamental Limits of an Irreversible Heat Engine
by
Fu, Rui
in
Cold
/ Energy
/ Energy dissipation
/ Entropy
/ Equilibrium
/ Heat engines
/ maximal power
/ Optimal control
/ optimal control strategy
/ stochastic thermodynamics
/ Temperature
/ Thermodynamics
/ Upper bounds
/ Wasserstein distance
2024
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Do you wish to request the book?
Fundamental Limits of an Irreversible Heat Engine
by
Fu, Rui
in
Cold
/ Energy
/ Energy dissipation
/ Entropy
/ Equilibrium
/ Heat engines
/ maximal power
/ Optimal control
/ optimal control strategy
/ stochastic thermodynamics
/ Temperature
/ Thermodynamics
/ Upper bounds
/ Wasserstein distance
2024
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Journal Article
Fundamental Limits of an Irreversible Heat Engine
2024
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Overview
We investigated the optimal performance of an irreversible Stirling-like heat engine described by both overdamped and underdamped models within the framework of stochastic thermodynamics. By establishing a link between energy dissipation and Wasserstein distance, we derived the upper bound of maximal power that can be delivered over a complete engine cycle for both models. Additionally, we analytically developed an optimal control strategy to achieve this upper bound of maximal power and determined the efficiency at maximal power in the overdamped scenario.
Publisher
MDPI AG,MDPI
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