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Geothermal cooling solutions for rural communities at Homa Bay, Kenya: a CFD modelling study.

Hossain, Mamdud; Lassale, Mailys; Vertigans, Stephen; Deveci, Gokay; Elyan, Eyad; Burgess, Katherine; Okowa, Mark

Authors

Mailys Lassale

Mark Okowa



Abstract

A Computational Fluid Dynamics (CFD) modelling study has been presented to analyse the cooling impact of a geothermal cooling system based on the Earth-Air-Tunnel-Heat-Exchanger (EATHE) concept to provide passive cooling to heat-stressed vulnerable people in Homa Bay, Kenya. Like many places on earth, Homa Bay is experiencing extreme environmental heat. The novelty and significance of the present work lies in demonstrating the effectiveness of the technology for a field application using real-world data. Two different pipe arrangement designs, a straight pipe and a serpentine pipe, were investigated for their cooling effect. The inlet and boundary conditions were set using the air and ground surface temperature data available from the NASA Satellite for Homa Bay, Kenya. The simulation results show that the lower the air velocity the better the cooling effect and a 40 m long straight or serpentine pipe with a 0.1 m internal diameter and 1.0 m/s air velocity can provide a 3°C cooling on the hottest days of the year. The performance difference between a straight pipe and a serpentine pipe is negligible, and owing to the lower space requirements, a serpentine design is recommended.

Citation

HOSSAIN, M., LASSALE, M., VERTIGANS, S., DEVECI, G., ELYAN, E., BURGESS, K. and OKOWA, M. 2025. Geothermal cooling solutions for rural communities at Homa Bay, Kenya: a CFD modelling study. International journal of sustainable engineering [online], 18(1), article number 2480095. Available from: https://doi.org/10.1080/19397038.2025.2480095

Journal Article Type Article
Acceptance Date Mar 11, 2025
Online Publication Date Mar 19, 2025
Publication Date Dec 31, 2025
Deposit Date Mar 24, 2025
Publicly Available Date Mar 24, 2025
Journal International journal of sustainable engineering
Print ISSN 1939-7038
Electronic ISSN 1939-7046
Publisher Taylor and Francis
Peer Reviewed Peer Reviewed
Volume 18
Issue 1
Article Number 2480095
DOI https://doi.org/10.1080/19397038.2025.2480095
Keywords Geothermal cooling; Climate change; Computational Fluid Dynamics (CFD); Earth-Air-Tunnel-Heat-Exchanger (EATHE); UNSDG
Public URL https://rgu-repository.worktribe.com/output/2748716

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