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Performance evaluation of an indirect air cooling system combined with evaporative cooling

Sipho Sibanda, Tilahun Seyoum Workneh

2020Heliyon29 citationsDOIOpen Access PDF

Abstract

storage chamber able to store 3.8 tons of tomatoes. Solar energy during the day and a battery bank facility at night powered the cooling system. The structure was constructed and assembled at Ukulinga research center in Pietermaritzburg. The performance of the IAC + EC was evaluated based on the temperature and the RH measured hourly from 05h00-22h00 daily during a period of 28 days. Temperature and RH were measured in the psychometric unit, various positions in the storage chamber and at ambient conditions. There were significant variations (P < 0.001) in temperature and RH between storage and ambient conditions. The temperature inside the storage chamber was on average 7°C-16°C lower while the average RH was 13%-41% higher than ambient conditions. Temperature and RH at the exhaust end of the IAC + EC storage chamber were 16.40 °C and 88.9% compared to 30.9°C and 47.6% under ambient conditions. Such conditions can enhance the shelf life of FV of moderate respiration rates. Inside the storage chamber, temperature was 15.7°C-16.4°C while the RH was 89.6%-93.8% depending on location. The cooler efficiency varied from 88.04% to 95.6%. The IAC + EC system performed at the same level as evaporative cooling under dry and arid conditions. The results in this study are evidence that IAC + EC system can provide optimum storage conditions for FV as well as being a low-cost technology utilizable in hot and sub-humid to humid areas in sub-Saharan Africa.

Topics & Concepts

Relative humidityEvaporative coolerEnvironmental scienceShelf lifeThermal energy storageChemistryHumidityMeteorologyPhysicsFood scienceThermodynamicsGreenhouse Technology and Climate ControlPostharvest Quality and Shelf Life Management