Power output ( P ), thermal efficiency ( η ) and ecological function ( E ) characteristics of an endoreversible Dual-Miller cycle (DMC) with finite speed of the piston and finite rate of heat transfer are investigated by applying finite time thermodynamic (FTT) theory. The parameter expressions of the non-dimensional power output ( P ¯ ), η and non-dimensional ecological function ( E ¯ ) are derived. The relationships between P ¯ and cut-off ratio ( ρ ), between P ¯ and η , as well as between E ¯ and ρ are demonstrated. The influences of ρ and piston speeds in different processes on P ¯ , η and E ¯ are investigated. The results show that P ¯ ...
An improved thermodynamic open Dual cycle is proposed to simulate the working of internal combustion...
The performance of an air standard Otto-cycle is analyzed using finite-time thermodynamics. In the i...
This paper presents a finite-time thermodynamic optimization based on three different optimization c...
Power output ( P ), thermal efficiency ( η ) and ecological function ( E ) characteristi...
Finite-time thermodynamic models for an Otto cycle, an Atkinson cycle, an over-expansion Miller cycl...
On the basis of introducing the origin and development of finite time thermodynamics (FTT), this pap...
The performance of a generalized irreversible reciprocating heat-engine cycle model consisting of tw...
In this study, a new series of assessments and evaluations of the Dual-Miller cycle is performed. Fu...
AbstractThe performance of an air standard Miller cycle is analyzed using finite-time thermodynamics...
The optimal performance for a class of generalized irreversible universal steady-flow heat-engine cy...
International audienceIn this study, an irreversible Diesel cycle is investigated based on entransy ...
This paper presents an ecological performance analysis and optimization for an air-standard irrevers...
A mathematical model of a steady combined diesel-organic Rankine cycle with finite heat resistance a...
A Diesel cycle heat engine with internal and external irreversibility’s of heat transfer and fricti...
The diesel engine is an indispensable part of technology and it is commonly used in land and marine ...
An improved thermodynamic open Dual cycle is proposed to simulate the working of internal combustion...
The performance of an air standard Otto-cycle is analyzed using finite-time thermodynamics. In the i...
This paper presents a finite-time thermodynamic optimization based on three different optimization c...
Power output ( P ), thermal efficiency ( η ) and ecological function ( E ) characteristi...
Finite-time thermodynamic models for an Otto cycle, an Atkinson cycle, an over-expansion Miller cycl...
On the basis of introducing the origin and development of finite time thermodynamics (FTT), this pap...
The performance of a generalized irreversible reciprocating heat-engine cycle model consisting of tw...
In this study, a new series of assessments and evaluations of the Dual-Miller cycle is performed. Fu...
AbstractThe performance of an air standard Miller cycle is analyzed using finite-time thermodynamics...
The optimal performance for a class of generalized irreversible universal steady-flow heat-engine cy...
International audienceIn this study, an irreversible Diesel cycle is investigated based on entransy ...
This paper presents an ecological performance analysis and optimization for an air-standard irrevers...
A mathematical model of a steady combined diesel-organic Rankine cycle with finite heat resistance a...
A Diesel cycle heat engine with internal and external irreversibility’s of heat transfer and fricti...
The diesel engine is an indispensable part of technology and it is commonly used in land and marine ...
An improved thermodynamic open Dual cycle is proposed to simulate the working of internal combustion...
The performance of an air standard Otto-cycle is analyzed using finite-time thermodynamics. In the i...
This paper presents a finite-time thermodynamic optimization based on three different optimization c...