热管 heat pipe
heat pipe
Study on the Transfer Process in Heat Pipe Bioreactor
热管生物反应器的传递过程研究
Research on Application of Heat Pipe Technology to Chemical Reactor
热管技术在化学反应器中的应用研究
A STUDY OF CAPILLARY AND PERMEABLE CHARACTERISTICS OF HEAT PIPE SCREEN WICKS
热管网状毛细芯毛细力及渗透率研究
State of the Art Application of the Heat Pipe and its Future Development
热管应用现状及其发展
OPTIMIZATION OF HEATING AREA RATIO IN HEAT PIPE EXCHANGER DESIGN
热管换热器换热面积比的优化
heat tube
After the air preheater system of hydrogenated reaction furnace changes into heat tube preheater,the heat efficiency of furnace increases about 3%.
加氢反应炉空气预热系统改用热管预热器后 ,炉子热效率提高了约 3%。
Design of Refrigerating and Vacuum System of the Test-Bed for Heat Tube in Artificial Satellite
卫星热管传热测试台的制冷与真空系统的设计
Development and application of heat tube heat exchangers.
热管换热器的发展和应用
APPLICATION OF HEAT TUBE AIR PREHEATER ON MEDIUM PRESSURE BOILER
热管空气预热器在中压锅炉上的应用
Application of electrothermal heat tube heaters in production of cyclohexylamine.
电热式热管加热器在环己胺生产中的应用
heat-pipe
Excited by Ar+ laser lines of 457.9, 476.5,496.5, 514.5nm, the 650-760nm diffuse emission of A2Π-X2Σ lor Van der Waal's molecular LiAr has been observed in a lithium heat-pipe oven with Ar gas.
用Ar~+的457.9,476.5,496.5,514.5nm激光激发充有Ar气的Li热管,获得Vander Waal's分子LiAr在650—760nm波长范围A~2П→X~2∑的漫射发射光谱。
Using a specially designed heat-pipe oven, the 5S1/2-6S1/2 stimulated electronic Eaman scattering (SERS) and some relative amplified spontaneous emission (ASE) have been observed in superheated Rb vapour.
采用一个特殊设计的热管炉,我们观测了过铷蒸汽中的5S_(1/2)→6S_(1/2)受激电子喇曼散射(SERS)和有关的放大自发辐射(ASE).
The experimental result shows that the efficiency of the heat-pipe vacuum-tube heat collector is 64.4%, while that of the U-type vacuum-tube heat collector is 59%, and the EER of the heat pump is 3.08;
实验结果表明,热管真空管集热器的集热效率为64·4%,U形管真空管集热器的集热效率为59%,热泵机组的能效比为3·08;
A compatibility test of water-carbon steel heat-pipe was run successfully for 3,000 hours.
水-碳钢热管相容试验达3,000小时,工作情况正常。
The novel approach (Phys. Rev., 1998, A57, 3753) of separating ortho and para molecules was applied to 23Na2 The 23Na atoms in a heat-pipe Cell were preped into a single hyperfine Zeeman level with defined electron and nuclear spin states using an optical pumping technique.
分离核自旋正和仲分子的新方法(Phys.Rev.,1998,A57:3753)被应用于(23)Na2的分离。 热管炉内的(23)Na原子用光泵技术准备在由电子和核自旋定义的单一精细塞曼能级。
heat pipes
Investigation of Continuous Heat Transfer in SO_2 Oxidation Process by Using Heat Pipes
采用热管实现SO_2氧化过程连续换热
Atudy on cooling technology with heat pipes in small CO_2 laser
小型CO_2激光器的热管冷却技术探讨
Ground-experimental study on the performance of Loop Heat Pipes
回路热管性能的地面实验研究
Application study and special structure design for rotating heat pipes
旋转热管应用及特殊结构设计
Study and Progress of Heat Pipes
热管的研究与进展
heat pipe
Above the heat source, the extent of the heat pipe is larger as gravity aids in the return flow.
A heat pipe acts as a high conductance thermal conductor.
A small copper condenser is attached to the top of each heat pipe.
A heat pipe collector incorporates a special fluid, which begins to vaporize even at low temperatures.
A computer simulation, based on the response factor technique, was developed for use in the design of the pavement heat pipe heating system.
heat tube
Combined loads of pressure and temperature are 1.405x108 Pascal's in the Niobium sleeve and 1.557x107 Pascal's in the Inconel 617 heat tube.
It is possible that the shell or a portion of the heat tube can be thickened to reduce the stress at this junction.
These stresses are at the shell to heat tube junction.
heat-pipe
Above the heat source, the extent of the heat pipe is larger as gravity aids in the return flow.
A heat pipe acts as a high conductance thermal conductor.
A small copper condenser is attached to the top of each heat pipe.
A heat pipe collector incorporates a special fluid, which begins to vaporize even at low temperatures.
A computer simulation, based on the response factor technique, was developed for use in the design of the pavement heat pipe heating system.
heat pipes
Ammonia has been shown to be compatible with aluminum and stainless steel during the development of heat pipes and CPL's.
Application of furnaces with controllable heat pipes may be appropriate means for improvement of the process.
A new technology that is being explored is the use of active loop heat pipes.
All three heat pipes were tested simultaneously under same ambient conditions.
An increased number of publications in the areas of electrical and electronic applications of heat pipes also appear in this issue.