International audienceAs part of the efforts to unify the various branches of Irreversible Thermodynamics, the proposed work reconsiders the approach of the Carnot engine taking into account the finite physical dimensions (heat transfer conductances) and the finite speed of the piston. The models introduce the irreversibility of the engine by two methods involving different constraints. The first method introduces the irreversibility by a so-called irreversibility ratio in the entropy balance applied to the cycle, while in the second method it is emphasized by the entropy generation rate. Various forms of heat transfer laws are analyzed, but most of the results are given for the case of the linear law. Also, individual cases are studied and...
AbstractIn this paper, the optimal ecological performance of an irreversible Carnot engine with the ...
Finite Time Thermodynamics is generally associated with the Curzon–Ahlborn approach to the Carnot cy...
In this paper, a comparison between two well-known finite time heat engine models is presented: the ...
As part of the efforts to unify the various branches of Irreversible Thermodynamics, the proposed wo...
In this work we include, for the Carnot cycle, irreversibilities of linear finite rate of heat trans...
The purpose of this work is to precise and complete one recently proposed in the literature and rela...
This paper presents a new step in the optimization of the Chambadal model of the Carnot engine. It a...
This book results from a Special Issue related to the latest progress in the thermodynamics of machi...
A combined cycle model which includes the irreversibilities of finite-rate heat transfer in heat-exc...
In this work we include, for the Carnot cycle, irreversibilities of linear finite rate of heat trans...
The fundamental optimal relation between optimal power-output and efficiency of a generalized irreve...
Thermostatics of Carnot engines has been extended by more recent research based on endo-reversible m...
The optimal exergy-based ecological performance of a generalized irreversible Carnot-engine with los...
The purpose of this article is to perform a comparative study of a reversible heat engine with an id...
This paper reviews how ideas have evolved in this field from the pioneering work of CARNOT right up ...
AbstractIn this paper, the optimal ecological performance of an irreversible Carnot engine with the ...
Finite Time Thermodynamics is generally associated with the Curzon–Ahlborn approach to the Carnot cy...
In this paper, a comparison between two well-known finite time heat engine models is presented: the ...
As part of the efforts to unify the various branches of Irreversible Thermodynamics, the proposed wo...
In this work we include, for the Carnot cycle, irreversibilities of linear finite rate of heat trans...
The purpose of this work is to precise and complete one recently proposed in the literature and rela...
This paper presents a new step in the optimization of the Chambadal model of the Carnot engine. It a...
This book results from a Special Issue related to the latest progress in the thermodynamics of machi...
A combined cycle model which includes the irreversibilities of finite-rate heat transfer in heat-exc...
In this work we include, for the Carnot cycle, irreversibilities of linear finite rate of heat trans...
The fundamental optimal relation between optimal power-output and efficiency of a generalized irreve...
Thermostatics of Carnot engines has been extended by more recent research based on endo-reversible m...
The optimal exergy-based ecological performance of a generalized irreversible Carnot-engine with los...
The purpose of this article is to perform a comparative study of a reversible heat engine with an id...
This paper reviews how ideas have evolved in this field from the pioneering work of CARNOT right up ...
AbstractIn this paper, the optimal ecological performance of an irreversible Carnot engine with the ...
Finite Time Thermodynamics is generally associated with the Curzon–Ahlborn approach to the Carnot cy...
In this paper, a comparison between two well-known finite time heat engine models is presented: the ...