Solar-Powered Refrigerator on Wheels: An Engineering Design Challenge

2023 Systems and Information Engineering Design Symposium (SIEDS) Pub Date : 2023-04-27 DOI:10.1109/SIEDS58326.2023.10137790

Mallory R. Poff, Sirena C. Hargrove-Leak

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Abstract

According to the Environmental Protection Agency, the agriculture industry in the United States accounts for 11% of total greenhouse gas emissions. Some of these emissions are due to the refrigeration and transportation needs of agricultural products; therefore, it would be beneficial to utilize renewable energy for these functions. This study focuses on the design and implementation of a solar-powered mobile cooling unit to power refrigerated storage and transportation units, specifically for small-scale farming. To inform the design process, small-scale farmers were engaged as potential stakeholders to learn about their current practices and opportunities to create value for them with a mobile cooling unit. A series of experiments were conducted to understand the performance capabilities of the Internal Cooling System and the Solar Battery System. Temperature studies were run to ensure that desirable temperatures could be achieved and maintained within the unit. These were conducted in different weather conditions to quantify external impacts. It was shown that desired temperatures could be achieved and maintained, and that a solar-powered system would be able to serve as the power source for a mobile cooling unit.

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轮子上的太阳能冰箱:一项工程设计挑战

根据美国环境保护署的数据，美国农业占温室气体排放总量的11%。其中一些排放是由于农产品的冷藏和运输需要;因此，利用可再生能源实现这些功能将是有益的。本研究的重点是设计和实现一种太阳能移动冷却装置，为小型农业的冷藏储存和运输装置提供动力。为了为设计过程提供信息，小规模农民作为潜在的利益相关者参与进来，了解他们目前的做法和利用移动冷却装置为他们创造价值的机会。为了了解内部冷却系统和太阳能电池系统的性能，进行了一系列的实验。进行温度研究，以确保机组内达到和维持理想的温度。这些研究是在不同的天气条件下进行的，以量化外部影响。研究表明，所需的温度可以达到并保持，并且太阳能供电系统将能够作为移动冷却装置的电源。

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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2023 Systems and Information Engineering Design Symposium (SIEDS)

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