A <italic>Posteriori</italic> Multiobjective Self-Adaptive Multipopulation Jaya Algorithm for Optimization of Thermal Devices and Cycles

A <italic>Posteriori</italic> Multiobjective Self-Adaptive Multipopulation Jaya Algorithm for Optimization of Thermal Devices and Cycles

This paper presents the multiobjective optimization aspects of three thermal devices and two thermodynamic cycles. The thermal devices considered are two-stage thermoelectric cooler, heat pump, and a plate-fin heat exchanger. The thermodynamic cycles considered are transcritical CO<sub>2</s...

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Main Authors: Ravipudi V. Rao, Ankit Saroj, Pawel Oclon, Jan Taler, Jaya Lakshmi
Format: Article
Language:English
Published: IEEE 2019-01-01
Series:IEEE Access
Subjects:
Carnot cycle
heat pump
Jaya algorithm
multiobjective optimization
plate-fin heat exchanger
thermoelectric cooler
Online Access:https://ieeexplore.ieee.org/document/8572683/
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spelling doaj-318de3762775468e9e71ec5e1f0dea662021-03-29T22:09:26ZengIEEEIEEE Access2169-35362019-01-0174113413410.1109/ACCESS.2018.28858238572683A <italic>Posteriori</italic> Multiobjective Self-Adaptive Multipopulation Jaya Algorithm for Optimization of Thermal Devices and CyclesRavipudi V. Rao0https://orcid.org/0000-0002-9957-1086Ankit Saroj1Pawel Oclon2Jan Taler3Jaya Lakshmi4Mechanical Engineering Department, S. V. National Institute of Technology, Surat, IndiaMechanical Engineering Department, S. V. National Institute of Technology, Surat, IndiaInstitute of Thermal Power Engineering, Cracow University of Technology, Cracow, PolandInstitute of Thermal Power Engineering, Cracow University of Technology, Cracow, PolandDepartment of Information Engineering and Computer Science, University of Trento, Trento, ItalyThis paper presents the multiobjective optimization aspects of three thermal devices and two thermodynamic cycles. The thermal devices considered are two-stage thermoelectric cooler, heat pump, and a plate-fin heat exchanger. The thermodynamic cycles considered are transcritical CO<sub>2</sub> cycle and the irreversible Carnot power cycle. <italic>A posteriori</italic> is proposed, and it is applied for the multiobjective optimization of the selected thermal devices and cycles to obtain the sets of nondominated alternative solutions. The results of computational experiments obtained by the MO-SAMP Jaya algorithm are found to be better than those obtained by the latest reported optimization algorithms.https://ieeexplore.ieee.org/document/8572683/Carnot cycleheat pumpJaya algorithmmultiobjective optimizationplate-fin heat exchangerthermoelectric cooler
collection DOAJ
language English
format Article
sources DOAJ
author Ravipudi V. Rao
Ankit Saroj
Pawel Oclon
Jan Taler
Jaya Lakshmi
spellingShingle Ravipudi V. Rao
Ankit Saroj
Pawel Oclon
Jan Taler
Jaya Lakshmi
A <italic>Posteriori</italic> Multiobjective Self-Adaptive Multipopulation Jaya Algorithm for Optimization of Thermal Devices and Cycles
IEEE Access
Carnot cycle
heat pump
Jaya algorithm
multiobjective optimization
plate-fin heat exchanger
thermoelectric cooler
author_facet Ravipudi V. Rao
Ankit Saroj
Pawel Oclon
Jan Taler
Jaya Lakshmi
author_sort Ravipudi V. Rao
title A <italic>Posteriori</italic> Multiobjective Self-Adaptive Multipopulation Jaya Algorithm for Optimization of Thermal Devices and Cycles
title_short A <italic>Posteriori</italic> Multiobjective Self-Adaptive Multipopulation Jaya Algorithm for Optimization of Thermal Devices and Cycles
title_full A <italic>Posteriori</italic> Multiobjective Self-Adaptive Multipopulation Jaya Algorithm for Optimization of Thermal Devices and Cycles
title_fullStr A <italic>Posteriori</italic> Multiobjective Self-Adaptive Multipopulation Jaya Algorithm for Optimization of Thermal Devices and Cycles
title_full_unstemmed A <italic>Posteriori</italic> Multiobjective Self-Adaptive Multipopulation Jaya Algorithm for Optimization of Thermal Devices and Cycles
title_sort <italic>posteriori</italic> multiobjective self-adaptive multipopulation jaya algorithm for optimization of thermal devices and cycles
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2019-01-01
description This paper presents the multiobjective optimization aspects of three thermal devices and two thermodynamic cycles. The thermal devices considered are two-stage thermoelectric cooler, heat pump, and a plate-fin heat exchanger. The thermodynamic cycles considered are transcritical CO<sub>2</sub> cycle and the irreversible Carnot power cycle. <italic>A posteriori</italic> is proposed, and it is applied for the multiobjective optimization of the selected thermal devices and cycles to obtain the sets of nondominated alternative solutions. The results of computational experiments obtained by the MO-SAMP Jaya algorithm are found to be better than those obtained by the latest reported optimization algorithms.
topic Carnot cycle
heat pump
Jaya algorithm
multiobjective optimization
plate-fin heat exchanger
thermoelectric cooler
url https://ieeexplore.ieee.org/document/8572683/
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