A. S. Ramana scite author profile

Conventional cooling technologies that utilize harmful refrigerants consume more energy and cause peak loads leading to negative environmental impacts. As the world grapples with the energy and environmental crisis, there is an urgent need to develop and promote environmentally benign sustainable cooling technologies. Solar cooling is one such promising technology, given the fact that solar energy is the cheapest and most widely available renewable energy that matches the cooling load requirements. However thermal storage systems are essential to overcome the disadvantage of the intermittent nature of solar energy and variations in the cooling demand. The enhanced utilization of solar energy and other consequences of thermal storage integrated systems have gained the attention of researchers in recent years. The concept of combined sensible and latent heat storage system is successfully introduced in several applications and it has many advantages. This paper presents the performance of the solar collector system and the charging characteristics of a PCM based latent heat thermal storage unit, which is designed to provide continuous supply of heat for the operation of 1 kW vapor absorption refrigeration unit. Investigations on PCM integrated thermal storage system have revealed improvement in heat storage capacity, lower heat loss and an increased solar collector efficiency due to better thermal stratification.

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Experimental Investigation on Heat Transfer Analysis of Fins

Ramana

Packianathan

2018

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A. S. Ramana

Review of solar cooling methods and thermal storage options

Experimental investigation of the LHS system and comparison of the stratification performance with the SHS system using CFD simulation

Performance study of a solar greenhouse dryer

Experimental Investigation on a Latent Heat Thermal Storage Unit for Solar Cooling Application

Experimental Investigation on Heat Transfer Analysis of Fins

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