The reason of magnetic deflective blow when high pressure vapor pipe is magnetized and welded is analyzed. A new simple demagnetizing weld is introduced.
分析了高压蒸汽管线带磁及焊接时产生磁偏吹的原因,介绍了简易消磁焊接新方法。
Using new type of thermal insulation materials, reasonable applying condensation trap. setting up a special vapor pipe for living and so on can improve the situation.
笔者就上述问题提出了采用新型保温材料、合理使用疏水器,建立一条生活用汽专用线等切实可行的改进措施。
As a vapor, it makes its way through the suction tube or pipe to the compressor.
作为蒸汽,它使得它的途径,透过吸气管或水管到压缩机。
Some methods of optimization on pulsating heat pipe are by the designs of capillary wall microrelief, the scale design of existed vapor bubbles and the working fluid selection.
脉动热管的优化设计可以通过对壁面粗糙度的加工、形成的汽泡尺度的控制和工质的匹配选择等来实现。
The new produced vapor bubbles are related with the existed vapor bubbles, and the scale effects on the startup and operation of looped pulsating heat pipe are found.
已有汽泡的形状强烈影响脉动热管的启动和运行,小汽泡更利于新汽泡的产生。
Here, the heat flow rate and the vapor temperature were estimated on a ready-made commercial heat pipe.
对成品热管测定了传热量和管内蒸气温度。
Import import trap or trap is known for the steam pipe network and devices, can automatically discharge condensate, air and other non-condensing gas, and blocking water vapor leak valve.
进口疏水阀或称进口疏水器是用于蒸汽管网及设备中,能自动排出凝结水、空气及其它不凝结气体,并阻水蒸汽泄漏的阀门。
The second vapor produced during concentration can enter the extraction tank through the upward pipe at the evaporator to serve as the heat source for extraction to maintain the boil inside the tank.
浓时产生二次蒸汽,通过蒸发器上升管送入提取罐作提取的热源和溶液,维持提取罐内沸腾。
The shape of the existed vapor bubbles influences the startup and operation of pulsating heat pipe essentially, the new vapor bubbles are easier to produce near the smaller vapor bubbles.
脉动热管的优化设计可以通过对壁面粗糙度的加工、形成的汽泡尺度的控制和工质的匹配选择等来实现。
Investigated is the effect of filling pipe on the charge relaxation and the oil surface potential at the interface between vapor and oil in a cylindrical vessel.
就鹤管对储罐内电荷的泄漏速度和油面电位的影响进行了分析。
The response curve gained by the test in a boiler pipe is accordant with the real situation of vapor-water ratio of the steam transportation.
装置在锅炉输汽管道中的实测响应曲线反映了输汽过程中汽液比的真实变化。
The treatment was carried out in two parts: By using of multiple-pipe gravity mixing technology, dust concentration of vapor phase was reduced, and accumulation of static electricity decreased;
根据存在的问题从两个方面进行了改造:采用多重管重力掺混技术,降低气相粉尘浓度,减少静电积聚;
Liquid-vapor separator: it is installed on the exhaust pipe line to separate the compressed gas from treatment fluid, the separator is a pressure vessel.
气液分离器:安装在排气管路上用以实现压缩气体与工作液的分离,分离器属压力容器。
The result of numerical simulation shows that the vapor bubble's expanding and compressing alternately keeps the fluid oscillating in the heat pipe.
热管内部振荡运动受倾角、充液率和加热功率影响,其变化趋势与前期实验结果基本一致。
The result of numerical simulation shows that the vapor bubble's expanding and compressing alternately keeps the fluid oscillating in the heat pipe.
热管内部振荡运动受倾角、充液率和加热功率影响,其变化趋势与前期实验结果基本一致。
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