Decentralized Solar Cooling Systems for Urban and Rural Applications: A Comparative Analysis

Main Article Content

Lina Jassim
Hayder Mohammed Mnati
Faez Abid Muslim Abd Ali
Hasan Shakir Majdi

Abstract

This paper looks at distributed solar cooling systems and assess the viability and the advantages of such systems under both the urban and rural contexts. This paper provides a detailed comparison of these systems, with special emphasis on energy performance, environmentally friendly features, and variation in climatic conditions. Specifically, the authors focused on the follow issues associated with cooling solutions in the framework of global warming and increasing urbanization: energy intensity, environmental footprint, and the dependency on fossil fuels. Most conventional cooling systems, including air conditioning, rely mainly on fossil energy and hence are a major source of greenhouse emissions. Decentralized solar cooling systems seem to offer a way by acting as eco-friendly cooling systems that are independent of the conventional energy supply. These systems capture and convert solar energy into usable cooling power for application in places with intermittent or constant high heat such as in urban as well as rural areas. The benefits are; less transmission loss, improved energy reliability, and less CO2 emission as compared to centralized system. Further, distributed structures enhance the availability of cooling in areas which are served by a weak grid power supply, especially in rural areas. The paper also explores various technologies that include photovoltaic panels and thermal collectors which make such systems functional in different circumstances. Nevertheless, several problems limit the application of the decentralized solar cooling systems. The problems associated with system complexity, maintenance, high costs of initial establishment, and absence of favorable policies remain critical for wider adoption. The last section of the paper briefly addresses the prospects of these systems, suggesting that future developments, supportive economic and policy frameworks will be conducive to the scaling up of such systems.

Article Details

How to Cite
[1]
Lina Jassim, H. S. Mohaisen, Faez Abid Muslim Abd Ali, and Hasan Shakir Majdi, “Decentralized Solar Cooling Systems for Urban and Rural Applications: A Comparative Analysis”, Rafidain J. Eng. Sci., vol. 3, no. 1, pp. 129–146, Jan. 2025, doi: 10.61268/p3swmf69.
Section
Review Articles

How to Cite

[1]
Lina Jassim, H. S. Mohaisen, Faez Abid Muslim Abd Ali, and Hasan Shakir Majdi, “Decentralized Solar Cooling Systems for Urban and Rural Applications: A Comparative Analysis”, Rafidain J. Eng. Sci., vol. 3, no. 1, pp. 129–146, Jan. 2025, doi: 10.61268/p3swmf69.

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