Effect of Heat Transfer on the First and Second Law Efficiency Analysis and Optimization of an Air-standard Atkinson Cycle


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Abstract

In this paper, the first and second-law analysis for the thermodynamic air-standard Atkinson cycle with an account for heat transfer is performed using finite-time thermodynamics. In order to have more accurate evaluations, the effects of thermodynamic and design key parameters on the performance characteristics of Atkinson cycle are shown. Further, artificial neural network and imperialist competition algorithm are employed to predict and optimize the net work output value versus the minimum cycle temperature and also the compression ratio. The results obtained show that the heat loss is an effective factor of the performance of the cycle and it should be considered in the analysis and comparison of practical internal combustion engines.

About the authors

A. Hajipour

Young Researchers and Elite Club, Ayatollah Amoli Branch

Author for correspondence.
Email: alirezahajipour@gmail.com
Iran, Islamic Republic of, Amol

M. M. Rashidi

School of Civil Engineering

Email: alirezahajipour@gmail.com
United Kingdom, Birmingham, B15 2TT

M. E. Ali

Mechanical Engineering Department

Email: alirezahajipour@gmail.com
Saudi Arabia, Riyadh

N. Freidoonimehr

Young Researchers and Elite Club, Hamedan Branch

Email: alirezahajipour@gmail.com
Iran, Islamic Republic of, Hamedan

M. Fallahian

Young Researchers and Elite Club, Hamedan Branch

Email: alirezahajipour@gmail.com
Iran, Islamic Republic of, Hamedan

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