Uji Performansi Alat Pengering Tipe Terowongan Hohenheim Aceh Dengan Aplikasi Proportional Integral Derivative Controller Untuk Kipas Outlet

Rita Khathir, Sri Hartuti, Ulfah Hardiyanti
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引用次数: 2

Abstract

The purpose of this study was to evaluate the performance of Hohenheim Aceh type solar tunnel dryer with the application of proportional integral derivative (PID) controller for outlet fans. The instrumentations used were solar tunnel dryer type Hohenheim Aceh, HTC-meter, anemometer, pyranometer, and other supporting equipments. The results showed that during the drying process solar irradiation had fluctuated, where the average solar irradiation was 649 W/m 2 . The average temperature in the drying chamber is 40.6°C while the average temperature in the environment is 32.9°C. Conditions in the drying chamber were suitable for drying because the temperature inside the dryer was relatively higher than the ambient temperature. The average relative humidity (RH) in the drying chamber was 36% and the average RH in the environment was about 40%. The relationship between temperature and RH value was negative and strong indicated bu r-value of 0.7379. On the other hand, the relationship between solar irradiation and temperature was positive and also strong indicating that the energy source for this dryer was from solar irradiation with an R-square of 86.02% and r-value of 0.92747. The application of PID controller had improved the performance of Hohenheim Aceh type solar tunnel dryer by preventing the incident of unproper drying temperature. However, the airflow in the drying chamber was too low thus the further engineering design is needed to improve the drying system.
本研究的目的是利用比例积分导数(PID)控制器对Hohenheim Aceh型太阳能隧道干燥机的出口风机进行性能评价。所使用的仪器为太阳能隧道干燥机Hohenheim Aceh型、高温计、风速计、热辐射计等配套设备。结果表明:在干燥过程中,太阳辐照量有波动,平均辐照量为649 W/ m2;干燥室内平均温度为40.6℃,环境平均温度为32.9℃。干燥室内温度相对高于环境温度,干燥室内条件适合干燥。干燥室内平均相对湿度(RH)为36%,环境平均RH约为40%。温度与相对湿度呈负相关,但r值为0.7379。另一方面,太阳辐照度与温度呈正相关关系,且关系较强,说明该干燥机的能量来源为太阳辐照,r平方为86.02%,r值为0.92747。PID控制器的应用防止了干燥温度不合理的发生,提高了Hohenheim Aceh型太阳能隧道干燥机的性能。但干燥室内气流过低,需要进一步的工程设计来改进干燥系统。
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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