除霜时机器处于蒸发器冷,冷凝器热的状态,室内室外风扇停止工作,压缩机运行。
Except when frost of the machine at evaporator cold, condenser hot state, indoor and outdoor fan to stop working, compressor operation.
蒸发器热损失少。
冰水均温装置中的蒸发器采用立式螺旋管形式放置于冰水池内,螺旋管内为超倍的氨供液,管外用气泵往冰水池内鼓入气泡起到强制对流换热效果。
The evaporators in the ice-water temperature uniformity equipment take the shape of vertical spiral tube which lie in the ice water pool.
本文从制冷系统热动力学的观点出发,在分布参数的基础上建立了蒸发器的实用性数学模型。
Based on distributed parameter, from the viewpoint of thermodynamics of refrigeration system, this paper develops a practicable mathematical model of an air-conditioning evaporator.
从这台设备中出来的热蒸汽通进二效的列管换热器,使第二台蒸发器中的液体沸腾。
Hot vapor from this unit passes to the second-effect calandria and causes boiling in the seconde vaporator.
微型蒸发器是一种体积小、重量轻、单位体积换热面积大的紧凑式换热器,在制冷低温技术领域中有着重要应用。
Miniature evaporator is a compact exchanger with small volume, light weight, and big heat transfer area per unit of volume. It is an important application in the field of cryogenics and refrigeration.
蒸发器热损失少。
最后对工质CO_2夹带的微量PAG对压缩机、膨胀机、气体冷却器和蒸发器的性能影响分别进行了分析,并提出了超临界换热分析模型。
The effects of little of lubricant in CO_2 on the performance of compressor, expander gas-cooler and evaporator were analyzed, and the model of supercritical heat transfer was also proposed.
进行了发生器、冷凝器、蒸发器、吸收器、溶液热交换器等换热设备所需的传热面积计算。
The heat-transfer area demand of the heat-exchange equipments, such as generator, condenser, evaporator, absorber and solution heat exchanger, are computed.
从这台设备中出来的热蒸汽通进二效的列管换热器,使第二台蒸发器中的液体沸腾。
Hot vapor from this unit passes to the second-effect calandria and causes boiling in the second evaporator.
显热除霜是针对四通阀换向除霜方式的缺陷而提出的一种新型的除霜方式,它是利用压缩机排出的高温制冷剂的显热对蒸发器进行除霜。
Sensible heat defrost is a new defrosting method which avoids disadvantages of four-way valve reverse defrost and USES the sensible heat of hot refrigerant vapor from compressor to defrost.
蒸发器热损失少。
冷凝器、蒸发器等换热部件采用了换热效率较高的板式换热器。
We applied Panel heat Exchanger with higher heat exchange efficiency and smaller size in condenser and evaporator and other heat exchange parts.
对微型螺旋管蒸发器的沸腾换热与阻力特性进行了实验研究。
The characteristics of boiling heat transfer and pressure drop is studied experimentally.
实验表明,以增大制冷剂流速来强化换热,可以提高蒸发器的传热系数;
The results indicate that increasing the refrigerant flow rate can enhance the coefficient of heat transfer of the evaporator.
随着污水流量的增加,换热器的换热特性大大提高,但其作为蒸发器和冷凝器时的换热器的影响有所区别。
The other one is that with the increment of sewage flow quantity, the efficiency of heat transfer is improved, but the affection is different on evaporator and condenser.
对这种蒸发器进行了传热性能的研究,并与池式光板进行传热性能对比,实验结果表明,T型翅片板降液膜蒸发能在低温差下维持沸腾且有较高的给热系数。
The heat performance of boiling for this evaporator has been studied and compared with that of falling film boiling and pool boiling on the smooth plate respectively.
对蒸发器的几何结构参数、毛细多孔芯特征参数以及热负荷变化对工质传热传质效果的影响进行了数值模拟。
The calculation results indicated that the heat flux and geometrical structures, such as fin width and wick height, exerted great influence on the heat transfer of a CPL evaporator.
所述蒸汽产生装置包括一温室状的集热-蒸发器;
The LNG shipping win-win type seawater desalination device comprises a steam generating device and a condenser;
所述蒸汽产生装置包括一温室状的集热-蒸发器;
The LNG shipping win-win type seawater desalination device comprises a steam generating device and a condenser;
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