DESIGN AND FABRICATION OF A SOLAR ADSORPTION REFRIGERATION CYCLE
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Abstract
The problem of electricity in Nigeria has become some sort of a nationwide pandemic that has plagued the country for years and continues to do so. With seemingly no end in sight to the electricity crisis, food storage has become very expensive as individuals as well as producers, need to pay a lot of money to run generators to power refrigerators. An alternative means to this would
be a more than welcome development. This project aims to reduce the cost encountered in refrigeration by using vapor absorption refrigeration, which is powered by solar energy.
The vapor absorption refrigerator uses water as its refrigerant, and zeolite is used as the absorbent. The compression system is a network of systems consisting of an absorber and a generator, aimed at compressing a liquid refrigerant-absorbent mixture that requires less work to compress than vapor. The temperature of the evaporator, generator, and condenser was measured and recorded periodically. The performance of the system is evaluated as the ratio of heat removed from the refrigerated space to the heat added to the system at the generator. The refrigerator proved quite functional, achieving a COP of 0.66. This validates the functionality of the system, but it was observed that it took 3 hours of heating to produce a 9°c drop (from 34.2°c to 25.2°c) in evaporator temperature. After 5 hours of heating, there was a 15°c drop (from 34.2°c to 19.2°c) in evaporator temperature. However, the atmospheric temperature was 27°c which means the cooling achieved was not appreciable. The system used in this project suffered from a lot of leakages and heat loss, which directly affected the performance of the system. We recommend
that further studies on techniques that would prevent heat loss, and a meticulous fabrication process to prevent leakages allow. Significant reduction in heat loss would greatly improve the
performance of the waste solar-powered VARS, thereby making it more viable and suitable for domestic and commercial usage
be a more than welcome development. This project aims to reduce the cost encountered in refrigeration by using vapor absorption refrigeration, which is powered by solar energy.
The vapor absorption refrigerator uses water as its refrigerant, and zeolite is used as the absorbent. The compression system is a network of systems consisting of an absorber and a generator, aimed at compressing a liquid refrigerant-absorbent mixture that requires less work to compress than vapor. The temperature of the evaporator, generator, and condenser was measured and recorded periodically. The performance of the system is evaluated as the ratio of heat removed from the refrigerated space to the heat added to the system at the generator. The refrigerator proved quite functional, achieving a COP of 0.66. This validates the functionality of the system, but it was observed that it took 3 hours of heating to produce a 9°c drop (from 34.2°c to 25.2°c) in evaporator temperature. After 5 hours of heating, there was a 15°c drop (from 34.2°c to 19.2°c) in evaporator temperature. However, the atmospheric temperature was 27°c which means the cooling achieved was not appreciable. The system used in this project suffered from a lot of leakages and heat loss, which directly affected the performance of the system. We recommend
that further studies on techniques that would prevent heat loss, and a meticulous fabrication process to prevent leakages allow. Significant reduction in heat loss would greatly improve the
performance of the waste solar-powered VARS, thereby making it more viable and suitable for domestic and commercial usage
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