EFEK PENAMBAHAN EVAPORATOR PADA ATMOSPHERE WATER HARVESTER (AWH) TERHADAP PERFORMA SISTEM

Gema Teknologi Pub Date : 2021-04-30 DOI:10.14710/GT.V21I2.33448

Juli Mrihardjono, Didik Ariwibowo, S. Sutrisno, Dista Yoel Tadeus

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Abstract

Atmosphere Water Harvester (AWH) was investigated to get water collected from air in elevated performance. Improvement was performed by introducing a series-arrangement of two evaporators. Air flew through the evaporators in cross-flow. This arrangement would influence performance of the AWH system in title of COP, MHI, and specific energy consumption. The AWH was designed using vapor compression refrigeration system. Parameter measured to the system were refrigerant temperature in suction and discharge line, inlet and outlet pipe wall temperatures at evaporator and condenser, air velocity enter into evaporator, and electrical energy consumption. Instrument used in this research were refrigerant pressure-temperature gauge, K-type digital thermometer, digital fan anemometer, thermo-hygro meter, and kWh meter. Air temperature and RH data were 36,5 oC, 40%, and 19 oC, 42 % for inlet and outlet air stram at evaporator, subsequently. With air velocity 1.5 m/s, the COP of the system was 3.7. Water collected from AWH was 1.1 litres/hour with energy consumption of 1.24 kWh. The AWH could be considered as a water harvester with value of specific energy of 1.13 kWh/litre and MHI of 0,2.

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研究了大气水收集器(AWH)在高性能下从空气中收集水的方法。通过引入两台蒸发器的串联布置进行了改进。空气以横流的形式流过蒸发器。这种布置方式对水暖系统的COP、MHI和比能耗等性能都有影响。水冷机组采用蒸汽压缩制冷系统设计。系统测量的参数有:吸、排管路内制冷剂温度、蒸发器、冷凝器进、出口管壁温度、进入蒸发器的空气流速、电能消耗。本研究使用的仪器有制冷剂压力-温度计、k型数字温度计、数字风机风速计、温湿度计、千瓦时计。蒸发器进出口气流温度和相对湿度分别为36.5 oC、40%和19.42 oC。当风速为1.5 m/s时，系统COP为3.7。从水厂收集的水为每小时1.1公升，耗电量为1.24千瓦时。该净水器可视为集水器，其比能值为1.13 kWh/l, MHI值为0.2。

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Gema Teknologi

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