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Numerical investigation of solar chimney power plants performance for Saudi Arabia weather conditions‏

Sustainable Cities and Society • 2018
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Publication Information
Authors Mostafa A. H. Abdelmohimen; Salem A. Algarni
Keywords Solar Chimney; SSPP; Radiation model
Journal Sustainable Cities and Society
Publisher Elsevier
Volume 38
Issue Not Available
Pages 1-8
publication.type International
Paper Link Open Link
Supplementary Materials Not Available
Abstract
The solar chimney power plant is one form of renewable energy technology uses the benefit of high intensive
solar radiation locations. The system consists of three main parts (collector, turbine, and chimney) where it can
convert electric energy through three traditional mechanisms. In this study, the performance of the solar
chimney power plant in six different locations in the kingdom of Saudi Arabia is investigated all over the year. A
numerical model has been validated against published experimental data and carried out to investigate the
performance. RNG K-∈ model is used to solve the momentum equation through the system. The discrete ordinate
(DO) radiation model was adopted to solve the radiative transfer equation. The results show that a solar chimney
power plant with 194m chimney height and 244m collector diameter is capable of producing monthly average
56 kW electric power over a year in Riyadh city. Bisha region of Saudi has found to be the best place to build a
solar chimney power plant where the yearly average produced power is around 63 kW. The efficiency of the solar
chimney power plant is affected by the value of both solar radiation and atmospheric temperature where the
collector efficiency ranges between 10–29% around the year. The results indicated that the solar chimney power
plant could be an important supplement for energy in Saudi Arabia.