Experimental investigation of the conduit slope impact on mixed convection in solar collectors

An experimental investigation on the mixed convection heat transfer of air flowing in circular conduits of a solar collector is conducted. The test rig consists of three different copper pipes with a length of 70 cm. The pipes are heated at constant heat flux. The effect of the pipe inclination angl...

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Main Authors: Al-Sammarraie A.T., Al-Jethelah M., Ibrahim T.K., Salimpour M.R., Alnaimi F.B.I.
Other Authors: 57195757756
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Published: Taylor and Francis Ltd. 2024
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spelling my.uniten.dspace-345642024-10-14T11:20:41Z Experimental investigation of the conduit slope impact on mixed convection in solar collectors Al-Sammarraie A.T. Al-Jethelah M. Ibrahim T.K. Salimpour M.R. Alnaimi F.B.I. 57195757756 57190136695 36730964600 55892618200 58027086700 experimental inclined pipe Mixed convection solar collector uniform heat flux Copper pipe Heat flux Nusselt number Solar collectors Circular conduit Experimental Experimental investigations Heat rate Inclination angles Inclined pipes Length to diameter ratio Mixed convection heat transfers Pipe inclinations Uniform heat flux Mixed convection An experimental investigation on the mixed convection heat transfer of air flowing in circular conduits of a solar collector is conducted. The test rig consists of three different copper pipes with a length of 70 cm. The pipes are heated at constant heat flux. The effect of the pipe inclination angle (? = 0�, 60�, and 90�), length-to-diameter ratio (L/D = 13.8, 18.4, and 36.7), and heat rate (Q = 5, 11, 19.6, 30, 40.5, and 57.8 W) is studied in the present study. The influences of Richardson number (Ri), inclination angle, and length-to-diameter ratio on the average Nusselt number are examined as well. The results show that the Nusselt number (Nu) is improved by 41.5% as the inclination angle is changed from 0� to 90� at L/D = 13.8. Further, as the length-to-diameter ratio was reduced from 36.7 to 13.8 at 90�, up to 54.9% enhancement in heat transfer is found. Also, it is seen that by increasing the heat rate from 5 W to 57.8 W at 90� and L/D = 13.8, the exchange in heat is improved by 44%. Three empirical correlations were proposed for each studied pipe inclination angle. A good agreement was found between the measured Nu and the calculated Nu from the proposed correlations. � 2023 Taylor & Francis Group, LLC. Final 2024-10-14T03:20:41Z 2024-10-14T03:20:41Z 2023 Article 10.1080/15567036.2023.2210084 2-s2.0-85163042294 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85163042294&doi=10.1080%2f15567036.2023.2210084&partnerID=40&md5=1a84c49e30e849cad13892b31f66395a https://irepository.uniten.edu.my/handle/123456789/34564 45 3 6678 6692 Taylor and Francis Ltd. Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic experimental
inclined pipe
Mixed convection
solar collector
uniform heat flux
Copper pipe
Heat flux
Nusselt number
Solar collectors
Circular conduit
Experimental
Experimental investigations
Heat rate
Inclination angles
Inclined pipes
Length to diameter ratio
Mixed convection heat transfers
Pipe inclinations
Uniform heat flux
Mixed convection
spellingShingle experimental
inclined pipe
Mixed convection
solar collector
uniform heat flux
Copper pipe
Heat flux
Nusselt number
Solar collectors
Circular conduit
Experimental
Experimental investigations
Heat rate
Inclination angles
Inclined pipes
Length to diameter ratio
Mixed convection heat transfers
Pipe inclinations
Uniform heat flux
Mixed convection
Al-Sammarraie A.T.
Al-Jethelah M.
Ibrahim T.K.
Salimpour M.R.
Alnaimi F.B.I.
Experimental investigation of the conduit slope impact on mixed convection in solar collectors
description An experimental investigation on the mixed convection heat transfer of air flowing in circular conduits of a solar collector is conducted. The test rig consists of three different copper pipes with a length of 70 cm. The pipes are heated at constant heat flux. The effect of the pipe inclination angle (? = 0�, 60�, and 90�), length-to-diameter ratio (L/D = 13.8, 18.4, and 36.7), and heat rate (Q = 5, 11, 19.6, 30, 40.5, and 57.8 W) is studied in the present study. The influences of Richardson number (Ri), inclination angle, and length-to-diameter ratio on the average Nusselt number are examined as well. The results show that the Nusselt number (Nu) is improved by 41.5% as the inclination angle is changed from 0� to 90� at L/D = 13.8. Further, as the length-to-diameter ratio was reduced from 36.7 to 13.8 at 90�, up to 54.9% enhancement in heat transfer is found. Also, it is seen that by increasing the heat rate from 5 W to 57.8 W at 90� and L/D = 13.8, the exchange in heat is improved by 44%. Three empirical correlations were proposed for each studied pipe inclination angle. A good agreement was found between the measured Nu and the calculated Nu from the proposed correlations. � 2023 Taylor & Francis Group, LLC.
author2 57195757756
author_facet 57195757756
Al-Sammarraie A.T.
Al-Jethelah M.
Ibrahim T.K.
Salimpour M.R.
Alnaimi F.B.I.
format Article
author Al-Sammarraie A.T.
Al-Jethelah M.
Ibrahim T.K.
Salimpour M.R.
Alnaimi F.B.I.
author_sort Al-Sammarraie A.T.
title Experimental investigation of the conduit slope impact on mixed convection in solar collectors
title_short Experimental investigation of the conduit slope impact on mixed convection in solar collectors
title_full Experimental investigation of the conduit slope impact on mixed convection in solar collectors
title_fullStr Experimental investigation of the conduit slope impact on mixed convection in solar collectors
title_full_unstemmed Experimental investigation of the conduit slope impact on mixed convection in solar collectors
title_sort experimental investigation of the conduit slope impact on mixed convection in solar collectors
publisher Taylor and Francis Ltd.
publishDate 2024
_version_ 1814061185421541376
score 13.214268