Mini cold storage using the parabolic solar trough: An appropriate technology for perishable agricultural product

J. S. Yadav, Korakana Shirisha, Chinthada Manikanteswar Rao
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Abstract

Limited storage of perishable agricultural products is a common problem for small-scale farmers. Therefore, our approach for this problem is to develop a low operating cost mini cold storage using solar energy. The integration of solar thermal energy with vapor absorption refrigeration systems was studied. In vapor absorption systems, heat energy is taken as the source of input energy and the performance characteristics depend on heat energy supplied and pump work used. The novelty of our project is that it uses a parabolic solar heat collector to run a vapor absorption refrigeration system using heat energy extracted from solar energy. In this cyclic process, the refrigerating effect is produced. By utilizing this mini cold storage system, tomatoes can be stored for four weeks whereas, with room temperature storage, it only lasts one week. This appropriate technology promises small-scale farmers to keep their perishable agricultural products for several weeks without additional storage costs.
利用抛物面太阳能槽的小型冷库:一种适用于易腐农产品的技术
易腐农产品储存有限是小农普遍面临的问题。因此,我们解决这一问题的方法是开发一种使用太阳能的低运行成本迷你冷库。研究了太阳能热能与蒸汽吸收式制冷系统的集成。在蒸汽吸收系统中,以热能作为输入能量的来源,其性能特性取决于所提供的热能和所使用的泵功。我们项目的新颖之处在于,它使用一个抛物面太阳能集热器来运行一个蒸汽吸收制冷系统,该系统使用从太阳能中提取的热能。在这个循环过程中,产生了制冷效果。通过使用这种迷你冷藏系统,西红柿可以储存四周,而室温储存只能保存一周。这种适当的技术使小农能够在不增加储存费用的情况下将易腐农产品保存数周。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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