Optimal configuration of a class of endoreversible heat-engines, with fixed duration and subject to the radiative heat-transfer law q [is proportional to] [Delta](T4), has been determined. The optimal cycle that maximizes the power output of the engine has been obtained using optimal-control theory, and the differential equations are solved by a Taylor-series expansion. It is shown that the optimal cycle has six branches, including two isothermal branches and four maximum-power branches, without adiabatic branches. The interval of each branch has been obtained, as well as the solutions of the temperatures of the heat reservoirs and working fluid. A numerical example is given. The results are compared with those obtained using the Newton's...
In this work we include, for the Carnot cycle, irreversibilities of linear finite rate of heat trans...
The optimal exergy-based ecological performance of a generalized irreversible Carnot-engine with los...
The thermodynamic system consisting of two high thermal capacity bodies and of a Carnot heat engine ...
The maximum power processes of multi-source endoreversible engines with stationary temperature reser...
AbstractA multistage irreversible Carnot heat engine system operating between a finite thermal capac...
Based on a model of a two-heat-reservoir heat-engine cycle with a finite high-temperature source and...
In the present paper, the thermoeconomic optimization of an endoreversible solardriven heat engine h...
From the point of view of finite time thermodynamics, the performance boundaries of thermal machines...
Abstract: The performance of an isothermal endoreversible chemical engine, in which the mass transfe...
National Natural Science Foundation [50776074]; Natural Science Foundation of Fujian Province, PR Ch...
15 pages, 10 figuresProducing useful electrical work in consuming chemical energy, the fuel cell hav...
AbstractThe objective of this study is to investigate the thermal efficiency and power production of...
The optimal performance for a class of generalized irreversible universal steady-flow heat-engine cy...
The fundamental optimal relation between optimal power-output and efficiency of a generalized irreve...
628-635The finite time thermodynamic optimization of an irreversible heat engine having thermal res...
In this work we include, for the Carnot cycle, irreversibilities of linear finite rate of heat trans...
The optimal exergy-based ecological performance of a generalized irreversible Carnot-engine with los...
The thermodynamic system consisting of two high thermal capacity bodies and of a Carnot heat engine ...
The maximum power processes of multi-source endoreversible engines with stationary temperature reser...
AbstractA multistage irreversible Carnot heat engine system operating between a finite thermal capac...
Based on a model of a two-heat-reservoir heat-engine cycle with a finite high-temperature source and...
In the present paper, the thermoeconomic optimization of an endoreversible solardriven heat engine h...
From the point of view of finite time thermodynamics, the performance boundaries of thermal machines...
Abstract: The performance of an isothermal endoreversible chemical engine, in which the mass transfe...
National Natural Science Foundation [50776074]; Natural Science Foundation of Fujian Province, PR Ch...
15 pages, 10 figuresProducing useful electrical work in consuming chemical energy, the fuel cell hav...
AbstractThe objective of this study is to investigate the thermal efficiency and power production of...
The optimal performance for a class of generalized irreversible universal steady-flow heat-engine cy...
The fundamental optimal relation between optimal power-output and efficiency of a generalized irreve...
628-635The finite time thermodynamic optimization of an irreversible heat engine having thermal res...
In this work we include, for the Carnot cycle, irreversibilities of linear finite rate of heat trans...
The optimal exergy-based ecological performance of a generalized irreversible Carnot-engine with los...
The thermodynamic system consisting of two high thermal capacity bodies and of a Carnot heat engine ...