基于优化冷风机结构为目的的冷媒除霜系统应用于冻结库中,通过采用6mm翅片间距的冷风机进行冻结过程中除霜与不除霜的对比实验。并且研究除霜过程对库温波动、冻结物温度波动、冻结时间等参数的影响,以及系统运行的特性。研究表明:应用冷媒除霜系统,每次除霜对库内造成的温度波动都在5℃以内、除霜过程对冻结物温度不产生波动、除霜情况的冻结时间较不除霜缩短了一小时,并且选择除霜对系统更节能。因此,在冷媒除霜系统中采用适时除霜的方式不仅可以避免翅片间隙被冰霜封堵,还可以缩小冷风机翅片间距。在相同换热面积下,缩小冷风机翅片间距还可以达到减小冷风机体积和占地面积的效果。 The refrigerant defrosting system based on the optimization of the structure of the air cooler is applied in the freezing warehouse, and the comparison experiment of defrosting and not defrosting during the freezing process is carried out by the air cooler with 6mm fin pitch. The influence of the defrosting process on the fluctuation of the reservoir temperature, the temperature fluctuation of the frozen object, the freezing time, and the characteristics of the system operation are also studied. The results show that the application of the refrigerant defrosting system, each defrost temperature fluctuations caused by the library are within 5 ℃, the defrosting process does not produce fluctuations in the temperature of the frozen matter, the defrosting freeze time is shorter than the defrost by one Hour, and choose defrost to save energy on the system. Therefore, the use of timely manner in the defrost system defrost defrost not only to avoid the fins blocked by frost, but also can narrow the gap between the chiller fins. In the same heat transfer area, reducing the chiller fins spacing can be achieved to reduce the chiller size and floor area effect.