Using finite-time thermodynamics, the relations between the power output, thermal efficiency and compression ratio have been derived. The effect of the specific heat of the working fluid, being temperature dependent, on the irreversible cycle performance, is significant. The conclusions obtained in this investigation are in full agreement with those of published studies for other cycles and may be used when considering the designs of actual diesel-engines.Finite-time thermodynamics Diesel-cycle Heat resistance Friction Variable specific-heat
A thermodynamic analysis is presented by means of mathematical formulation to examine the performanc...
Finite-time thermodynamic models for an Otto cycle, an Atkinson cycle, an over-expansion Miller cycl...
Rate of heat release is a standard tool when engineers tune and develop new engines. The ratio of sp...
The objective of this study is to examine the influences of heat loss characterized by a percentage ...
The influence of the temperature dependence of specific heat capacities of working fluid on specific...
This study is aimed at investigating the effects of heat loss, as characterized by a percentage of f...
The performance of a generalized irreversible reciprocating heat-engine cycle model consisting of tw...
The performance of an air standard Otto-cycle is analyzed using finite-time thermodynamics. In the i...
The variability of specific heats, internal irreversibility, heat and frictional losses are neglecte...
AbstractThe performance of an air standard Miller cycle is analyzed using finite-time thermodynamics...
Performance of an air-standard Atkinson cycle is analyzed by using finite-time thermodynamics. The i...
On the basis of introducing the origin and development of finite time thermodynamics (FTT), this pap...
Efficient power optimization of Brayton heat engine with variable specific heat of the working fluid...
The optimal performance for a class of generalized irreversible universal steady-flow heat-engine cy...
Thermodynamic analysis of an ideal air-standard Atkinson cycle with temperature dependant specific h...
A thermodynamic analysis is presented by means of mathematical formulation to examine the performanc...
Finite-time thermodynamic models for an Otto cycle, an Atkinson cycle, an over-expansion Miller cycl...
Rate of heat release is a standard tool when engineers tune and develop new engines. The ratio of sp...
The objective of this study is to examine the influences of heat loss characterized by a percentage ...
The influence of the temperature dependence of specific heat capacities of working fluid on specific...
This study is aimed at investigating the effects of heat loss, as characterized by a percentage of f...
The performance of a generalized irreversible reciprocating heat-engine cycle model consisting of tw...
The performance of an air standard Otto-cycle is analyzed using finite-time thermodynamics. In the i...
The variability of specific heats, internal irreversibility, heat and frictional losses are neglecte...
AbstractThe performance of an air standard Miller cycle is analyzed using finite-time thermodynamics...
Performance of an air-standard Atkinson cycle is analyzed by using finite-time thermodynamics. The i...
On the basis of introducing the origin and development of finite time thermodynamics (FTT), this pap...
Efficient power optimization of Brayton heat engine with variable specific heat of the working fluid...
The optimal performance for a class of generalized irreversible universal steady-flow heat-engine cy...
Thermodynamic analysis of an ideal air-standard Atkinson cycle with temperature dependant specific h...
A thermodynamic analysis is presented by means of mathematical formulation to examine the performanc...
Finite-time thermodynamic models for an Otto cycle, an Atkinson cycle, an over-expansion Miller cycl...
Rate of heat release is a standard tool when engineers tune and develop new engines. The ratio of sp...