白沙瓦兰县苏克麦郎地区穹顶式干燥机对咖啡豆吸能潜力和干燥时间的试验研究

Yopi Rusdian Santoso, Lathifa Putri Afisna, Muhammad Syaukani, Gita Johannes Saragih
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引用次数: 0

摘要

传统的干燥方法有很多缺点,即对天气的依赖性很大,使得干燥时间较长。传统的干燥方法经常导致灰尘、污垢、昆虫的污染,如果潮湿,由于在阴天或雨天干燥的延迟,它们很容易长苔藓。本研究设计了一种咖啡豆烘干机,该烘干机是利用光伏发电将太阳能转化为电能的结果,光伏发电首先储存在电池中。该工具的主要组成部分有:干燥室、干燥顶、托盘、恒温器、加热元件,进行此测试是为了确定种子含水率的变化、所需功率和效率。温度设置为50℃,风扇转速设置为3m/s。从2022年6月22日开始,1公斤咖啡豆样品的含水量下降最快,从28.5%降至12%。同时,咖啡豆含水量下降时间最长的是在2022年6月24日,质量为2kg的咖啡豆,咖啡豆初始含水量为29.3% ~ 13.2%。需要干燥的咖啡豆质量越大,使用圆顶烘干机干燥咖啡豆所需的时间就越长。最大功率在Pesawaran地区的Sukmailang地区,那里有海拔1200米的高原(MDPL),平均功率为11.38瓦。最高功率在12:00 WIB产生,值为16.49瓦。在Pesawaran Regency的Sukmailang地区,由于高原高达1200 (MDPL),太阳能电池板的使用仍然没有得到有效利用,因为获得的结果平均效率值为2.22%
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental Study of The Potential for Energy Absorption and Drying Time of Coffee Beans Using a Dome Dryer Type Dryer in The Sukmailang Area of Pesawaran Regency
The traditional drying method has many weaknesses, namely it is very dependent on the weather, so that drying takes a long time. Traditional drying methods result in frequent contamination of dust, dirt, insects, and if wet they are prone to moss growth due to delays in drying during cloudy or rainy weather. This study designed a coffee bean dryer with electric power which is the result of converting solar energy with the help of photovoltaic which is first stored in the battery. The main components of this tool are: drying chamber, drying roof, tray, thermostat, heating element, this test is carried out to determine changes in seed moisture content, required power and efficiency. The temperature is set at 50°C with a fan speed of 3m/s. The fastest decrease in water content occurred in the mass of 1 kg coffee bean samples starting on June 22, 2022 from 28.5% water content to 12% moisture content. Meanwhile, the longest decrease in the water content of coffee beans was at a mass of 2 kg coffee beans on June 24, 2022, the initial water content of coffee beans was 29.3% to 13.2%. The greater the mass of the coffee beans to be dried, the greater the time required to dry the coffee beans using a dome dryer. The maximum power is in the Sukmailang area, Pesawaran district which has a plateau as high as 1200 meters above sea level (MDPL) with an average power of 11.38 Watt. The highest power is produced at 12:00 WIB with a value of 16.49 Watts. The use of solar panels in the Sukmailang area, Pesawaran Regency which has a plateau as high as 1200 (MDPL) is still not effectively utilized because the results obtained have an average efficiency value of 2.22%
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