Maximum Cooling Loads for Solar Vapour Compression AC Refrigeration System Operating Under Varying Solar Insolation
- September 25, 2020
- Posted by: RSIS Team
- Categories: Engineering, IJRSI
International Journal of Research and Scientific Innovation (IJRSI) | Volume VII, Issue IX, September 2020 | ISSN 2321–2705
Patrick Mbuthia wainaina1*, Michael W. Okoth2, George Owino3
1,3Faculty of Engineering and Technology, Egerton University, Kenya
2Faculty of Food and Science Technology, University of Nairobi, Kenya
Abstract: Solar energy is readily available in mid-day and unavailable in the early and late time of the day, and fluctuates with the seasons of the year in many. Due to this fluctuation, there exists a mismatch between solar energy availability and cooling load energy demands in solar technology, which make them inefficient and unreliable. Sufficient harnessing and storage of solar energy for use in solar energy applications, is critical for improvement of efficiency and reliability of solar technologies. This is only possible if the solar driven refrigeration system utilizes the maximum solar energy available at a specific site, and stores some of the energy in form of ice thermal load systems.
This study has analyzed three different sizes of solar vapour compression refrigeration systems, each fitted with an AC compressor. Four PV panels each of 200Wp were connected to the systems and exposed to different levels of solar isolations for the same period of time. The maximum cooling loads from each system, was established by the temperature drop of the water in the cooling can and the mass of ice formed in a jacket of cooling water for each of the system. An innovative control unit controlled the running of the compressors, depending on the solar insolation required by each compressor. The number of hours each compressor ran per day was recorded and by a datalogger. Results showed that solar refrigeration systems with AC compressors exhibited a maximum cooling load for different refrigeration system AC compressors, which is dependent on the solar insolation of the a specific location.
Keywords- Solar Insolation; Vapour compression; Cooling load; Ice thermal system ITS; AC
