Add to ORKGAn ecological performance analysis for an irreversible dual-cycle cogeneration system has been performed. The objective function is called as the exergetic-performance coefficient (EPC) and defined as the ratio of total exergy output to the loss rate of availability. The general and optimal performances of the irreversible dual-cycle cogeneration system, having a finite-rate of heat transfer, heat leak and internal irreversibilities based on the EPC objective function have been investigated. Comparisons with respect to the optimal total-exergy output are also provided in order to establish the utility of the new exergetic-performance coefficient. The analyzed results of the dual-cycle cogeneration system considered, working at maximum EPC c...
International audienceIn this study, an irreversible Diesel cycle is investigated based on entransy ...
On the basis of the exergy analysis, a performance optimization is carried out for a generalized irr...
This paper presents an analysis of an irreversible Otto cycle aiming to optimize the net power throu...
In this study, an exergy optimization has been performed for a cogeneration plant consisting of an i...
This paper presents an ecological performance analysis and optimization for an air-standard irrevers...
Owing to the energy demands of the world and the issues involved with global warming, analyzing and ...
A reverse Carnot cycle forms the basis of all heat-pump cycles in providing heating and cooling load...
A reverse Carnot cycle forms the basis of all heat-pump cycles in providing heating and cooling load...
In this study, a new series of assessments and evaluations of the Dual-Miller cycle is performed. Fu...
The optimal performance for a class of generalized irreversible universal steady-flow heat-engine cy...
A mathematical model of a steady combined diesel-organic Rankine cycle with finite heat resistance a...
The optimal exergy-based ecological performance of a generalized irreversible Carnot-engine with los...
Cogeneration combined heat and power cycle components are continually optimized using new methods an...
International audienceIn this study, an irreversible Diesel cycle is investigated based on entransy ...
The purpose of this paper has been to carry out an exergetic analysis of an innovative natural gas (...
International audienceIn this study, an irreversible Diesel cycle is investigated based on entransy ...
On the basis of the exergy analysis, a performance optimization is carried out for a generalized irr...
This paper presents an analysis of an irreversible Otto cycle aiming to optimize the net power throu...
In this study, an exergy optimization has been performed for a cogeneration plant consisting of an i...
This paper presents an ecological performance analysis and optimization for an air-standard irrevers...
Owing to the energy demands of the world and the issues involved with global warming, analyzing and ...
A reverse Carnot cycle forms the basis of all heat-pump cycles in providing heating and cooling load...
A reverse Carnot cycle forms the basis of all heat-pump cycles in providing heating and cooling load...
In this study, a new series of assessments and evaluations of the Dual-Miller cycle is performed. Fu...
The optimal performance for a class of generalized irreversible universal steady-flow heat-engine cy...
A mathematical model of a steady combined diesel-organic Rankine cycle with finite heat resistance a...
The optimal exergy-based ecological performance of a generalized irreversible Carnot-engine with los...
Cogeneration combined heat and power cycle components are continually optimized using new methods an...
International audienceIn this study, an irreversible Diesel cycle is investigated based on entransy ...
The purpose of this paper has been to carry out an exergetic analysis of an innovative natural gas (...
International audienceIn this study, an irreversible Diesel cycle is investigated based on entransy ...
On the basis of the exergy analysis, a performance optimization is carried out for a generalized irr...
This paper presents an analysis of an irreversible Otto cycle aiming to optimize the net power throu...