Utilizing rice husk biomass for drying corn is an alternative solution for drying corn in direct sunlight. This is done through the conversion of thermal energy with heat-exchanging furnaces. This model provides opportunity that the drying process is independently of the weather condition and gain more hygienic products. In addition, it creates energy independence through the use of waste that has an energy value is quite high. Utilization of rice husks by optimizing the performance of heat exchangers through the application of stainless-steel pipes. The diameter of the pipes varies, namely 1 inch, ¾ inch, and ½ inch. The conventional dryer design has dimensions of drying chamber (600 × 536 x 536) mm³ and furnace (800 × 500 x 500) mm³. Nine of heat exchanger pipes are arranged in parallel to one air flow path. The results show the utilization of rice husk biomass provides satisfactory performance on drying 4 kg of corn. The average temperature of the drying chamber, which is based on the outlet temperature of the heat exchanger pipes diameter of 1 inch, ¾ inch, and ½ inch are 91.20 ± 0.70 °C, 73.95 ± 0.65 °C, and 58.27 ± 0.48 °C, respectively.

利用稻壳生物量干燥玉米是在直射阳光下干燥玉米的另一种解决方案。这是通过用换热炉转换热能来完成的。该模型提供了干燥过程不受天气条件影响并获得更多卫生产品的机会。另外，它通过使用具有很高能量值的废物来产生能量独立性。通过使用不锈钢管来优化热交换器的性能来利用稻壳。管道的直径各不相同，即1英寸，3/4英寸和1/2英寸。传统的干燥机设计具有干燥室（600×536 x 536）mm ³和炉膛（800×500 x 500）mm ^3的尺寸。九根热交换器管平行于一个空气流动路径布置。结果表明，稻壳生物量的利用在干燥4 kg玉米上提供了令人满意的性能。基于1英寸，3/4英寸和½英寸直径的热交换器管道的出口温度，干燥室的平均温度为91.20±0.70°C，73.95±0.65°C和58.27±0.48°C ， 分别。