On the analysis of an ecological regime for energy converters

A. M. Ares de Parga-Regalado; M. A. Ramírez-Moreno

doi:10.1016/j.physa.2022.128049

On the analysis of an ecological regime for energy converters

A. M. Ares de Parga-Regalado, M. A. Ramírez-Moreno

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

In the context of Finite Time Thermodynamics, an ecological-like function is built based on the ecological and efficient power energy functions. By means of an optimization analysis of the Curzon–Alhborn heat engine with a Newtonian heat transfer law, a comparative study between our proposal and the maximum power, ecological and efficient power criteria is carried out. With this different approach, contrasted to the other regimes, there is an increase in efficiency, and it results in a decrease in the maximum power output and the dissipation. The analysis is extended to a Müser engine, and an example related with solar energy converters is presented. In addition, a semi-analytical method is used to obtain approximate formulas for certain thermal efficiencies, which are usually obtained numerically and no analytic expressions are given.

Original language	English
Article number	128049
Journal	Physica A: Statistical Mechanics and its Applications
Volume	605
DOIs	https://doi.org/10.1016/j.physa.2022.128049
State	Published - 1 Nov 2022
Externally published	Yes

Keywords

Curzon–Ahlborn engine
Ecological optimization
Finite time thermodynamics
Heat transfer law
Müser engine
Novikov engine

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10.1016/j.physa.2022.128049

Cite this

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title = "On the analysis of an ecological regime for energy converters",

abstract = "In the context of Finite Time Thermodynamics, an ecological-like function is built based on the ecological and efficient power energy functions. By means of an optimization analysis of the Curzon–Alhborn heat engine with a Newtonian heat transfer law, a comparative study between our proposal and the maximum power, ecological and efficient power criteria is carried out. With this different approach, contrasted to the other regimes, there is an increase in efficiency, and it results in a decrease in the maximum power output and the dissipation. The analysis is extended to a M{\"u}ser engine, and an example related with solar energy converters is presented. In addition, a semi-analytical method is used to obtain approximate formulas for certain thermal efficiencies, which are usually obtained numerically and no analytic expressions are given.",

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AU - Ares de Parga-Regalado, A. M.

AU - Ramírez-Moreno, M. A.

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Y1 - 2022/11/1

N2 - In the context of Finite Time Thermodynamics, an ecological-like function is built based on the ecological and efficient power energy functions. By means of an optimization analysis of the Curzon–Alhborn heat engine with a Newtonian heat transfer law, a comparative study between our proposal and the maximum power, ecological and efficient power criteria is carried out. With this different approach, contrasted to the other regimes, there is an increase in efficiency, and it results in a decrease in the maximum power output and the dissipation. The analysis is extended to a Müser engine, and an example related with solar energy converters is presented. In addition, a semi-analytical method is used to obtain approximate formulas for certain thermal efficiencies, which are usually obtained numerically and no analytic expressions are given.

AB - In the context of Finite Time Thermodynamics, an ecological-like function is built based on the ecological and efficient power energy functions. By means of an optimization analysis of the Curzon–Alhborn heat engine with a Newtonian heat transfer law, a comparative study between our proposal and the maximum power, ecological and efficient power criteria is carried out. With this different approach, contrasted to the other regimes, there is an increase in efficiency, and it results in a decrease in the maximum power output and the dissipation. The analysis is extended to a Müser engine, and an example related with solar energy converters is presented. In addition, a semi-analytical method is used to obtain approximate formulas for certain thermal efficiencies, which are usually obtained numerically and no analytic expressions are given.

KW - Curzon–Ahlborn engine

KW - Ecological optimization

KW - Finite time thermodynamics

KW - Heat transfer law

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KW - Novikov engine

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On the analysis of an ecological regime for energy converters

Abstract

Keywords

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