现代工业、水产业、服务业乃至为缓解城市空调用电矛盾而蕴应而出的冰蓄冷,均需要大量的冰晶或冰糊,本文通过对小冰晶制冰系统的研制,用微元体来分析在该系统中冰晶生成的全过成,得出冰晶在蒸发冷却器中仅产生能生成冰晶的冰核,在冰水分离桶中形成冰晶,最终长成可用于使用且可用泵输送的小冰晶.用该种制冰方法与其传统的制冰方法相比,其具有制冰速率快、能耗低、装置占地面积小、流动性好、节省劳动力等优点.若应用于水产品的保鲜,则其与被保鲜物的接触面积几乎可达100%且不会损伤水产品表面积.若用于冰蓄冷,则其可在高蒸发温度下制冰,供在用电峰值时使用,起到削峰补谷,缓解城市用电矛盾的作用. Modern industry, aquaculture, service industry and even for the sake of alleviating the contradiction between the urban air-conditioning power supply and ice storage, all require a large amount of ice crystals or ice paste. Through the development of small ice crystal ice making system, Analysis of the full build-up of ice crystals in this system leads to ice crystals producing only ice crystals capable of producing ice crystals in the evaporative cooler, ice crystals forming in the ice water separation bucket, eventually becoming small for use and pumpable Compared with the traditional ice making method, the ice making method has the advantages of fast ice making rate, low energy consumption, small device footprint, good fluidity, labor saving, etc. If the ice-making method is applied to the preservation of aquatic products , The area of ​​contact with the freshness is almost 100% without damaging the surface area of ​​the aquatic product.If it is used for ice storage, it can be ice-cooked at a high evaporation temperature for use at the peak of electricity consumption, Peak cut Valley, ease the contradiction between the role of urban electricity.