此外,还分析了冷媒温度、冻结时间和冻结壁厚度的关系。
Moreover, relation between temperature of cold media, freezing time and the thickness of freezing wall is analyzed.
冷媒流量越大,冷媒温度越低,水合物越容易生成,蓄冷量也越大;
The cool storage capacity increases and the formation is easier with the increasing flow or decreasing medium temperature.
为了防止这种情况的出现,必须对冷媒蒸发温度加以控制。
In order to prevent the occurrence of such a situation, must be on the refrigerant evaporating temperature control.
对影响循环的主要参数分析表明,二次冷媒的冷凝温度及膨胀机进口压力对循环的效率影响很大。
From an analysis of the cycle influencing main parameters it is ascertained that the condensing temperature of secondary cooling medium exercises a very great influence on the cycle efficiency.
针对气体车间制氮装置预冷空气温度过高的问题,提出了利用冷媒水降低预冷空气温度的措施及工艺改造方案,并对空气冷却器的工艺计算做了较详细的介绍。
Since the pre cooling air temperature of nitrogen unit is too high, the measure and process design scheme for using the refrigerant water to reduce the pre-cooling air temperature are recommended.
获得了以该介质为蓄冷媒介的蓄冷平板在第一类边界条件下凝固时的相界面移动规律、板内温度分布及预测蓄冷时间等参数。
The motion of phase interface, the temperature distribution and the thermal storage time of the cool storage slab under the first boundary condition were obtained.
获得了以该介质为蓄冷媒介的蓄冷平板在第一类边界条件下凝固时的相界面移动规律、板内温度分布及预测蓄冷时间等参数。
The motion of phase interface, the temperature distribution and the thermal storage time of the cool storage slab under the first boundary condition were obtained.
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