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Solar desiccant cooling system for a commercial building in Kuwait’s climatic condition.
Author(s) : NARAYANAN R., ANAZI A. A. al, PIPPIA ., RASUL M. G.
Type of article: Periodical article
Summary
The use of air conditioning in buildings to provide a comfortable environment accounts for up to 75% of the electricity consumed in Kuwait for the hot season from April through to the end of October. The widespread adoption of air conditioning systems in buildings has resulted in an increased demand for electricity. This has led to an increased peak load demand that has resulted in a larger carbon footprint and placed the electricity grid under significant strain. Heat-driven air conditioning systems that use solar energy are now emerging as alternatives to electricity-driven conventional refrigerated air conditioners. These systems are more energy-efficient, with lower carbon emissions while also ensuring better indoor air quality and comfort when optimally designed. Among the heat-driven air conditioning systems, the desiccant cooling system is among the systems with the most potential. This paper presents a numerical investigation of the design optimization of solar desiccant cooling systems for Kuwait’s climate. The numerical model of the system is developed using validated components. The various design configurations analysed include a solar heating system and regeneration air for the desiccant wheel. It is found that an evacuated tube solar collector in conjunction with return air from the building to regenerate the desiccant wheel provides the best results.
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Pages: 13 p.
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Details
- Original title: Solar desiccant cooling system for a commercial building in Kuwait’s climatic condition.
- Record ID : 30029883
- Languages: English
- Subject: Technology
- Source: Energies - vol. 15 - n. 11
- Publishers: MDPI
- Publication date: 2022/06
- DOI: http://dx.doi.org/10.3390/ en15114102
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