The optimization of paddy drying in the rotary dryer: energy efficiency and product quality aspects analysis

Food Research Pub Date : 2024-03-03 DOI:10.26656/fr.2017.8(s1).17

D. Q. A’yuni, A. Subagio, A. Prasetyaningrum, S.B. Sasongko, M. Djaeni

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Abstract

Currently, paddy drying has been widely developed and applied. This research goal was to find the optimal condition of paddy dried in a rotary dryer. The process was conducted at various paddy capacities (10–40 kg) and temperatures (40–60°C). For main indicators, the drying time, physical quality of the product and energy efficiency were evaluated. In doing so, the optimization process with the response surface method (RSM) was conducted. Results showed that under higher temperatures, the moisture level in the paddy reduced quickly, resulting in a shorter drying time and higher efficiency. However, faster moisture reduction can break the texture of paddy, which increases the percentage of broken rice. Meanwhile, with the increasing paddy capacity, heat transfer becomes more effective, as seen in the increase in energy efficiency. Nevertheless, the excessive capacity requires a longer drying time. After optimizing by response surface method (RSM), the most favorable condition can be reached at paddy capacity of 45.8 kg with drying temperature of 56.4°C. For this condition, energy efficiency achieved 15.6% with percentage of broken rice 8.18%.

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转笼烘干机烘干水稻的优化：能效和产品质量分析

目前，水稻烘干已得到广泛开发和应用。本研究的目标是找出在旋转式烘干机中烘干稻谷的最佳条件。该过程在不同的稻谷容量（10-40 公斤）和温度（40-60°C）下进行。主要指标包括干燥时间、产品物理质量和能源效率。为此，采用响应面法（RSM）进行了优化。结果表明，在较高温度下，稻谷中的水分含量会迅速降低，从而缩短干燥时间并提高效率。然而，较快的水分降低速度会破坏稻米的质地，从而增加碎米的比例。同时，随着稻谷容量的增加，传热变得更加有效，这体现在能源效率的提高上。然而，过大的容量需要更长的烘干时间。通过响应面法（RSM）进行优化后，稻谷产量为 45.8 公斤、烘干温度为 56.4 摄氏度时达到了最有利的条件。在此条件下，能效达到 15.6%，碎米率为 8.18%。

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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Food Research

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