Modeling and Analysis of Energy/Exergy for Absorber Pipes of Linear Parabolic Concentrating Systems

Modeling and Analysis of Energy/Exergy for Absorber Pipes of Linear Parabolic Concentrating Systems

In this paper, the physical parameters of the absorber pipe of a linear parabolic collector have been investigated. The types of solar collectors, specifically the linear parabolic collector, have been comprehensively studied. Then, the mathematical model of heat transfer in the absorber pipe of the...

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Autores principales: Reza Alayi, Mahdi Mohkam, Hossein Monfared, Alibek Issakhov, Nima Khalilpoor
Formato: article
Lenguaje:EN
Publicado: Hindawi Limited 2021
Materias:
Renewable energy sources
TJ807-830
Acceso en línea:https://doaj.org/article/5c9f47b2620b42debfe0116efbd5af0b
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spelling oai:doaj.org-article:5c9f47b2620b42debfe0116efbd5af0b2021-11-22T01:09:33ZModeling and Analysis of Energy/Exergy for Absorber Pipes of Linear Parabolic Concentrating Systems1687-529X10.1155/2021/7929756https://doaj.org/article/5c9f47b2620b42debfe0116efbd5af0b2021-01-01T00:00:00Zhttp://dx.doi.org/10.1155/2021/7929756https://doaj.org/toc/1687-529XIn this paper, the physical parameters of the absorber pipe of a linear parabolic collector have been investigated. The types of solar collectors, specifically the linear parabolic collector, have been comprehensively studied. Then, the mathematical model of heat transfer in the absorber pipe of the collector has been presented based on valid references. Numerical solutions of the equations related to the absorber pipe were performed by MATLAB software, and the effects of the physical parameters of the absorber pipe on its efficiency were investigated. The results show that increasing the length of the absorber pipe causes a nonlinear decrease in the efficiency of the absorber pipe. One of the important results is the increase in fluid temperature due to the increase in the diameter of the adsorbent tube, which increases the diameter of the fluid temperature by 60 K, in which the parameter increases the efficiency by 0.38%.Reza AlayiMahdi MohkamHossein MonfaredAlibek IssakhovNima KhalilpoorHindawi LimitedarticleRenewable energy sourcesTJ807-830ENInternational Journal of Photoenergy, Vol 2021 (2021)
institution DOAJ
collection DOAJ
language EN
topic Renewable energy sources
TJ807-830
spellingShingle Renewable energy sources
TJ807-830
Reza Alayi
Mahdi Mohkam
Hossein Monfared
Alibek Issakhov
Nima Khalilpoor
Modeling and Analysis of Energy/Exergy for Absorber Pipes of Linear Parabolic Concentrating Systems
description In this paper, the physical parameters of the absorber pipe of a linear parabolic collector have been investigated. The types of solar collectors, specifically the linear parabolic collector, have been comprehensively studied. Then, the mathematical model of heat transfer in the absorber pipe of the collector has been presented based on valid references. Numerical solutions of the equations related to the absorber pipe were performed by MATLAB software, and the effects of the physical parameters of the absorber pipe on its efficiency were investigated. The results show that increasing the length of the absorber pipe causes a nonlinear decrease in the efficiency of the absorber pipe. One of the important results is the increase in fluid temperature due to the increase in the diameter of the adsorbent tube, which increases the diameter of the fluid temperature by 60 K, in which the parameter increases the efficiency by 0.38%.
format article
author Reza Alayi
Mahdi Mohkam
Hossein Monfared
Alibek Issakhov
Nima Khalilpoor
author_facet Reza Alayi
Mahdi Mohkam
Hossein Monfared
Alibek Issakhov
Nima Khalilpoor
author_sort Reza Alayi
title Modeling and Analysis of Energy/Exergy for Absorber Pipes of Linear Parabolic Concentrating Systems
title_short Modeling and Analysis of Energy/Exergy for Absorber Pipes of Linear Parabolic Concentrating Systems
title_full Modeling and Analysis of Energy/Exergy for Absorber Pipes of Linear Parabolic Concentrating Systems
title_fullStr Modeling and Analysis of Energy/Exergy for Absorber Pipes of Linear Parabolic Concentrating Systems
title_full_unstemmed Modeling and Analysis of Energy/Exergy for Absorber Pipes of Linear Parabolic Concentrating Systems
title_sort modeling and analysis of energy/exergy for absorber pipes of linear parabolic concentrating systems
publisher Hindawi Limited
publishDate 2021
url https://doaj.org/article/5c9f47b2620b42debfe0116efbd5af0b
work_keys_str_mv AT rezaalayi modelingandanalysisofenergyexergyforabsorberpipesoflinearparabolicconcentratingsystems
AT mahdimohkam modelingandanalysisofenergyexergyforabsorberpipesoflinearparabolicconcentratingsystems
AT hosseinmonfared modelingandanalysisofenergyexergyforabsorberpipesoflinearparabolicconcentratingsystems
AT alibekissakhov modelingandanalysisofenergyexergyforabsorberpipesoflinearparabolicconcentratingsystems
AT nimakhalilpoor modelingandanalysisofenergyexergyforabsorberpipesoflinearparabolicconcentratingsystems
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