Finite-time thermodynamic models for an Otto cycle, an Atkinson cycle, an over-expansion Miller cycle (M1), an LIVC Miller cycle through late intake valve closure (M2) and an LIVC Miller cycle with constant compression ratio (M3) have been established. The models for the two LIVC Miller cycles are first developed; and the heat-transfer and friction losses are considered with the effects of real engine parameters. A comparative analysis for the energy losses and performances has been conducted. The optimum compression-ratio ranges for the efficiency and effective power are different. The comparative results of cycle performances are influenced together by the ratios of the energy losses and the cycle types. The Atkinson cycle has the maximum...
Thermodynamic analysis of an ideal air standard Atkinson cycle usnder Efficient Power Density is pre...
An irreversible Maisotsenko reciprocating Brayton cycle (MRBC) model is established using the finite...
One of the ways to improve thermodynamic efficiency of Spark Ignition engines is by the optimisatio...
Finite-time thermodynamic models for an Otto cycle, an Atkinson cycle, an over-expansion Miller cycl...
AbstractThe performance of an air standard Miller cycle is analyzed using finite-time thermodynamics...
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...
Performance of an air-standard Atkinson cycle is analyzed by using finite-time thermodynamics. The i...
The Atkinson cycle, where expansion ratio is higher than the compression ratio, is one of the method...
Power output ( P ), thermal efficiency ( η ) and ecological function ( E ) characteristi...
The optimal performance for a class of generalized irreversible universal steady-flow heat-engine cy...
On the basis of introducing the origin and development of finite time thermodynamics (FTT), this pap...
An improved thermodynamic open Dual cycle is proposed to simulate the working of internal combustion...
When the exhaust valve of a conventional spark ignition engine opens at the end of the expansion str...
This paper presents a finite-time thermodynamic optimization based on three different optimization c...
Thermodynamic analysis of an ideal air standard Atkinson cycle usnder Efficient Power Density is pre...
An irreversible Maisotsenko reciprocating Brayton cycle (MRBC) model is established using the finite...
One of the ways to improve thermodynamic efficiency of Spark Ignition engines is by the optimisatio...
Finite-time thermodynamic models for an Otto cycle, an Atkinson cycle, an over-expansion Miller cycl...
AbstractThe performance of an air standard Miller cycle is analyzed using finite-time thermodynamics...
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...
Performance of an air-standard Atkinson cycle is analyzed by using finite-time thermodynamics. The i...
The Atkinson cycle, where expansion ratio is higher than the compression ratio, is one of the method...
Power output ( P ), thermal efficiency ( η ) and ecological function ( E ) characteristi...
The optimal performance for a class of generalized irreversible universal steady-flow heat-engine cy...
On the basis of introducing the origin and development of finite time thermodynamics (FTT), this pap...
An improved thermodynamic open Dual cycle is proposed to simulate the working of internal combustion...
When the exhaust valve of a conventional spark ignition engine opens at the end of the expansion str...
This paper presents a finite-time thermodynamic optimization based on three different optimization c...
Thermodynamic analysis of an ideal air standard Atkinson cycle usnder Efficient Power Density is pre...
An irreversible Maisotsenko reciprocating Brayton cycle (MRBC) model is established using the finite...
One of the ways to improve thermodynamic efficiency of Spark Ignition engines is by the optimisatio...