Banana Dryer Tests using Solar Shelves and Biomass Energy

Musamus AE Featuring Journal Pub Date : 2019-04-10 DOI:10.35724/maef-j.v1i2.2031

Mario Rinaldo Masela, J. Jamaludin, N. Suryaningsih, Toni Mulyono

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Abstract

Banana chips drying is an important process in flouring. Conventional drying has many drawbacks such as long drying time, large areas, quality degradation due to dirt, and unpredictable rain can occur. The purpose of this study was to test the banana dryer for solar and biomass rack energy types. The stages of this research are the design of a rack type banana dryer, the manufacture of parts for tools, and the testing of dryers. The test was carried out with three treatments, namely drying with a solar energy dryer, biomass energy dryer, and conventional drying as a control. Drying test was carried out for 600 minutes with an initial sample water content of 69.33%. During the test, banana samples were taken to measure temperature and water levels every 30 minutes. The test results showed the moisture content of banana chips on drying using the lowest biomass energy compared to conventional solar energy dryers and drying. The final moisture content of banana chips on the rack 5 solar energy dryers and biomass energy dryers is 22% and 16%, respectively. Whereas, in conventional drying, the final moisture content of banana chips is 33.33%.

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香蕉干燥机测试使用太阳能架子和生物质能

香蕉片干燥是面粉加工的重要工序。常规干燥有许多缺点，如干燥时间长，面积大，由于污垢而导致质量下降，并且可能发生不可预测的降雨。本研究的目的是测试太阳能和生物质机架能源类型的香蕉干燥器。本课题的研究阶段为机架式香蕉干燥机的设计、工具部件的制造和干燥机的测试。试验采用太阳能干燥器干燥、生物质能干燥器干燥和常规干燥作为对照进行3种处理。干燥试验600 min，初始样品含水量为69.33%。在测试过程中，每隔30分钟采集香蕉样本来测量温度和水位。试验结果表明，与常规太阳能干燥机和生物质能源干燥机相比，香蕉片的含水率最低。5号架太阳能干燥机和生物质能干燥机的香蕉片最终含水率分别为22%和16%。而在常规干燥中，香蕉片的最终含水率为33.33%。

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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Musamus AE Featuring Journal

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