Heat pipe air heater is a important heat recovering equipment.
热管空气预热器是一种重要的余热回收装置。
Regulator valve and return to heat pipe will solve this problem.
稳压阀和回热管将解决这一问题。
It was demonstrated that heat pipe can be implemented in air-conditioning.
论证了热管在空调应用中的可实施性。
Oscillating-flow heat pipe (OFHP) in drying has a great potential for application.
振荡流热管(OFHP)在干燥领域有广阔的应用前景。
The paper introduces the separate type heat pipe exchanger to heat the gas from process liquid.
文中介绍一种利用工艺中液体冷却放出热量来加热气体的分离式热管换热器。
The thermal characteristics of the Naphthalene heat pipe were studied with experimental method.
应用实验的方法,研究了萘热管的热工特性。
Theoretical model of heat pipe thermal module was built using thermal resistance network method.
采用热阻网络法,得出热管散热模组的数学模型。
Improvement of PLC control system on new steam soot-blower in heat pipe preheater is introduced.
介绍了可编程控制器在新型蒸汽巡扫吹灰装置中的应用与改进。
Describes principle and construction of verification device for surface thermometer with heat pipe.
叙述一种热管式表面温度计检定装置的原理、结构。
Heat pipe is an efficient heat transfer device by means of the phase transition of the working fluid.
热管是一种利用工质相变进行热量传递的高效传热元件。
The optimum buffer gas pressure for LIF emission increases with the temperature of the heat pipe oven.
使发射达到最大值的最佳缓冲气压随热管炉温度的增加而增加。
The experiments show the economic and technological performances of the gravity heat pipe are superior.
试验表明所研制的重力热管经济和技术性能优越。
Heat pipe heat exchanger has many types, it is important how to choose them in engineering application.
热管换热器形式多样、结构复杂,因而如何选择其形式是工程应用中的一个重要环节。
The off-design performance of a new type of heat pipe radiator was studied based on experimental method.
本文采用实验方法对一台新型热管散热器进行了变工况性能测试研究。
The effect of heat source location on the heat transfer of an axially grooved heat pipe was investigated.
探讨了轴向槽道热管垂直安装时热源位置的不同对热管工作特性的影响。
It also introduces the necessity of controlling wall temperature of heat pipe by means of stepwise design.
同时亦介绍采用分段设计方法控制热管管壁温度的必要性。
The invention relates to a stirring bioreactor of a dynamic heat pipe, which is used in various biological reactions.
本发明涉及一种用于多种生物反应的动态热管搅拌生物反应器。
The heat transfer and flow pass condensation segment in the gravity heat pipe with inner screw thread were investigated.
分析了在重力热管内加内螺纹的方法,研究了重力热管的冷凝段的传热及流动状况。
Therefore, heat pipe receiver can improve the efficiency of system, avoid the phenomena of heat spot and thermal ratcheting.
因此,热管吸热器提高了系统的效率,能避免热斑和热松脱现象。
Practical significance of heat pipe used as heat recovery equipment in air conditioning and ventilation system is introduced.
介绍了设置热管热回收装置对空调通风系统节能具有重要的现实意义。
The heat transfer experiments were made in the working of temperature range of the naphthalene heat pipe, at small inclination Angle.
根据萘热管的工作温度范围,对萘热管小倾角放置时的传热极限进行了实验研究。
In this paper, simulation calculation and optimum design for the moderate-temperature heat pipe heat exchanger were chiefly discussed.
本论文主要完成中温热管空气换热器模拟计算和优化设计的研究。
This paper builds up the heat conveying model of the heat pipe screw, calculates its total conductivity and its heat conveying equation.
建立了热管式螺杆的热模型,计算出了热管式螺杆的总传导率,进而得出了热管式螺杆的传热方程。
The working principle and characters of heat pipe are discussed in the paper firstly, because the applications of heat pipe base on them.
本文首先论述了热管的工作原理和特性,热管的应用是以此为基础的。
Therefore it is very necessary to carry out research on corrosive problem of Heat pipe GGH and find measures for engineering application.
因此非常有必要对热管式GGH的腐蚀问题加以分析研究,以期能对实践有一定的指导作用。
With the increasing demand for the cooling of electronic chips, the micro heat pipe with the sintered wick has become an ideal heat radiator.
目前电子芯片对散热的要求越来越高,烧结式吸液芯微热管已经成为电子芯片理想的散热元件。
Researching on the configuration and unsteady state efficiency of the glass evacuated solar collector tube with an inserted heat pipe in this paper.
本文针对玻璃真空管内插热管式太阳能集热器的结构特点、非稳态效率进行了研究。
The research and industrial application of high temperature heat pipe heat exchanger represented by liquid metal heat pipe technology was introduced.
介绍了以液态金属热管技术为代表的高温热管换热器的研究与工业应用。
On the resistance of capillary hysteresis, the model of high power pulsating heat pipe is improved and the flow and heat transfer are further studied.
在毛细滞后阻力方面,改进了所建立的高功率脉动热管的模型,进一步研究了脉动热管的流动和传热特性。
On the resistance of capillary hysteresis, the model of high power pulsating heat pipe is improved and the flow and heat transfer are further studied.
在毛细滞后阻力方面,改进了所建立的高功率脉动热管的模型,进一步研究了脉动热管的流动和传热特性。
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