Abstract
Abstract The unpredictable weather in Indonesia results in a less effective conventional coffee beans drying process, which usually uses solar energy as a heat source. This experiment aimed to examine the performance of the coffee beans drying using low-temperature geothermal energy (LTGE) with solar energy as the energy source. Heat pipe heat exchanger, which consists of 42 straight heat pipes with staggered configuration, was used to extract the LTGE. The heat pipes have 700 mm length, 10 mm outside diameter with a filling ratio of 50%, and added by 181 pieces of aluminum with a dimension size of 76 mm × 345 mm × 0.105 mm as fins. LTGE was simulated by using water that is heated by three heaters and flowed by a pump. Meanwhile, to simulate the drying process with conventional methods, a system of solar air collectors made of polyurethane sheets with a thickness of 20 mm and dimensions of length × width × height = 160 cm × 76 cm × 10 cm, respectively, was used in this study. Zinc galvalume sheet with 0.3 mm thickness was installed and coated by the black doff color throughout the inner of the container wall. The result showed that the drying process with LTGE and solar energy is faster than with solar energy or geothermal energy only. The drying coffee beans using the hybrid system can speed up the drying coffee beans time by about 23% faster than the solar energy only.
Highlights
Coffee is the most popular beverage in the world, and Indonesia is one of the largest coffee producers in the world
This study is conducted to investigate how much the effectivity will increase if conventional coffee drying process with solar energy is combined with low-temperature geothermal energy extracted by heat pipe heat exchanger (HPHE)
The HPHE used for the direct utilization of low-temperature geothermal energy has successfully absorbed heat effectively and transferred it to the drying chamber without fluid withdrawal
Summary
Coffee is the most popular beverage in the world, and Indonesia is one of the largest coffee producers in the world. The coffee bean drying process uses open sun drying, and most of coffee farmers in Indonesia usually need only 3–4 h under the sunny day for 7–12 days. The aforementioned studies show a similar issue, that is, a consistent temperature is needed to make the drying process faster This means that it is difficult to achieve that condition if the drying process depends only on solar energy. One of the conventional ways to extract the geothermal energy especially the low temperature one is by flowing fluid through the pipe connected with heat exchanger. This study is conducted to investigate how much the effectivity will increase if conventional coffee drying process with solar energy is combined with low-temperature geothermal energy extracted by HPHE. It is expected that the result of this research will give a chance to improve the productivity and quality of coffee, especially in Indonesia
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