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- Thermosyphon subcooler 热管过冷器
- The techniques to manufacture the copper thermosyphon are probed. 摸索了铜热虹吸管的制作工艺;
- Finally, the design of the subcooler, one of key components was presented. 还给出了该低温系统关键设备之一的过冷器的设计方法以及设计参数。
- The Lamelshell heat exchanger is designed easily for thermosyphon reboiler. 传热恶化点的干度较大,便于设计成高效的热虹吸再沸器。
- The whole pulsating and local pulsating in the thermosyphon were found. 空气冷却条件下倾角越小,振荡越明显;
- The factors which influence the performance of thermosyphon are discussed. 探讨了影响热虹吸管传热性能的几个因素;
- Meanwhile, the system's COP and ECOP can be increased largely by adding the subcooler. 通过增加冷媒过冷器,可以明显地提高系统COP和ECOP值。
- The subcooler is a key device of cryogenic cooling system in High Temperature Superconducting (HTS) cables. 摘要过冷器是高温超导电缆(HTS)低温冷却系统的关键设备之一。
- The results indicate that the larger diameter of thermosyphon is the better to the enhancement of heat transfer rate. 结果表明:大管径的热管对于提高热管的传冷量是有利的;
- Two types of thermosyphon radiators with different structures on condensation sections were developed. 其冷凝段分别采用单根粗的或7根较细的热虹吸管,蒸发段都采用同样的平板容积型蒸发器。
- Thermal pipe is a kind of two-phase closed thermosyphon in use of civil engineering. 热棒是应用于土木工程中的无芯重力式热管。
- If cylinder does subcool, close valve and allow cylinder to warm up.DONOT APPLY HEAT! 如果钢瓶没有过冷,关闭阀门让钢瓶升温。
- How to model and design the thermosyphon reboiler which is attached to adjacent vessel by clip support? 如何去模拟及设计被相邻塔器“抱着”的热虹吸重沸器?
- An additional jet-pump(liquid-gas ejector)was used to subcool the refrigerant from condenser in this new system. 该循环系统引入了一个辅助的液体-气体射流泵,通过消耗少量泵功,对冷凝器出来的液体进行过冷。
- On the basis of experiment about quartz glass thermosyphon, performance of thermosyphon to transfer heat is analyzed . 在玻璃热虹吸管实验的基础上研究分析了热虹吸管传热性能;
- A simple method is established which can determine the size of hydrogen thermosyphon in cold neutron sources. 提出了一个简便的计算方法,用以确定冷中子源氢热虹吸管的尺寸。
- A comparative analysis is made between the dehumidification system with and without thermosyphon heat exchanger. 并与无热管的除湿系统对比分析。
- A heat transfer experiment was performed to investigate the heat transfer performance of a small thermosyphon using carbon nanotube(CNT)suspensions. 对水基多壁碳纳米管悬浮液强化小型重力型热管换热特性进行了实验研究。
- The influences of working fluid, Fill Ratio of liquid and inclination angle on the thermosyphon operating were analyzed. 试验发现工质为水的热虹吸管的启动时间大于工质为酒精的热虹吸管;
- Here, a loop thermosyphon heat exchanger was made to realize the pre-cooling and reheating of the dehumidified gas in the direction of the airflow. 本文构造了回路虹吸热虹吸管,在气体流动方向上实现了被除湿气体的预冷和再热。
