relation: https://khub.utp.edu.my/scholars/17959/
title: Evaluation of 15-m-Height Solar Chimney Model Integrated with TES under Tropical Climate
creator: Al-Kayiem, H.H.
creator: Abdul Wahhab, H.A.
creator: Jamil, I.E.A.
creator: Mohamed, M.M.
creator: Mohamed, I.M.
description: The present study examines a solar chimney power generation model under tropical conditions, with a focus on the impact of ground absorber dimensions on system efficacy. An experimental and numerical analysis was conducted using a 15-meter-high solar chimney, where the ground was transformed into a sensible thermal energy storage system through the application of black-painted pebbles. Three configurations were assessed to determine system performance: Case-1 and Case-2, featuring collector diameters of 4.9 m and 6.6 m respectively, and Case-3, which introduces an innovative design extending the diameter of the sensible thermal energy storage (TES) by 2.0 m beyond the collector's canopy. Performance was gauged using a metric defined by the product of mass flow rate and temperature increase of the air. Numerical models were validated against experimental outcomes, with results showing a satisfactory correlation. It was found that the performance metric in Case-2 doubled, while in Case-3, it tripled relative to Case-1. The enhancement in performance in Case-3 was further evidenced by a 30.4 increase in air velocity at the chimney base over Case-2, and a 36.7 increase over Case-1, highlighting the efficacy of the extended sensible TES. These findings suggest that enlarging the TES area beyond the collector's canopy can significantly improve solar chimney performance, potentially enabling a reduction in construction scale and a concurrent decrease in electricity production costs. This approach represents a promising avenue for addressing the dual challenges of structural height and efficiency that currently hamper the feasibility of solar chimney power generation on an industrial scale. © 2023 IIETA.
publisher: International Information and Engineering Technology Association
date: 2023
type: Article
type: PeerReviewed
identifier:   Al-Kayiem, H.H. and Abdul Wahhab, H.A. and Jamil, I.E.A. and Mohamed, M.M. and Mohamed, I.M.  (2023) Evaluation of 15-m-Height Solar Chimney Model Integrated with TES under Tropical Climate.  International Journal of Energy Production and Management, 8 (4).  pp. 211-218.  ISSN 20563272     
relation: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85181687353&doi=10.18280%2fijepm.080402&partnerID=40&md5=4f9808ebad573b1f9e84f94890d446c7
relation: 10.18280/ijepm.080402
identifier: 10.18280/ijepm.080402