热管换热器是一种高效的换热装置。
热管换热器是一种新型的高效换热设备。
The heat-pipe exchanger is a new-type, high-efficiency device of heat transfer.
均苯四甲酸二酐;重力热管换热器;应用;
Pyromellitic Dinahydride Anhydride; Gravity Heat Pipe Heat Exchanger; Application;
热管换热器换热效率高,具有广阔的推广应用前景。
Hot-pipe heat exchanger has high heat efficiency and a broad prospect for its application.
介绍热管及热管换热器的特点,设计了试验用热管中冷器。
This article introduces the characteristics of the heat pipe and heat-pipe heat-exchanger, and the author designed a heat-pipe intercooler for experiment.
首次将热管换热器用于回收密闭式畜禽舍冬季换气中的余热。
It is the first time that the heat pipe heat-exchangers are applied in the recovery of waste heat in closed-poultry housing in winter.
这些结果对热管换热器的防止低温腐蚀设计有一定的参考价值。
The relative curve between heat tube constructive parameter and wall temperature is obtained.
热管换热器是一种新型换热器,它是回收工业余热的理想设备。
The heat pipe heat exchanger is a new kind of heat exchanger, which is an excellent device to recover industrial waste heat.
得到了较为理想的优化结果,为热管换热器的设计提供了理论依据。
The result of optimize was good, the research put up the theoretic basis of the device of heat pipe.
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。
The research and industrial application of high temperature heat pipe heat exchanger represented by liquid metal heat pipe technology was introduced.
这些原则不但适用于气-气热管换热器,而且也适用于气-液热管换热器。
These principles are applicable not only to the gas- gas heat pipe heat exchangers but also to the gas-liquid head pipe heat exchangers.
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 paper introduces the separate type heat pipe exchanger to heat the gas from process liquid.
本论文主要完成了应用于空调系统热管换热器的模拟计算和优化设计的研究。
In this paper, simulation calculations and optimum designs for this heat exchanger were chiefly discussed.
本文介绍了热管的工作原理,以及热管换热器在本厂轧钢加热炉上的应用效果。
This paper introduces the principle and application of the exchanger to the reheating furnace of steel rolling plant.
对板式换热器、波纹管换热器和超导热管换热器的特点及使用场合进行了分析、对比。
A comparison and an analysis are made of the characteristics and situations of use of plate, corrugated tube and super conductive heat pipe exchangers.
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。
Heat pipe heat exchanger has many types, it is important how to choose them in engineering application.
预热法包括用热管换热器、管式换热器、板式换热器、热媒式换热器和蓄热式热风炉。
The preheating method includes heat-pipe exchanger, tubular heat exchanger, plate heat exchanger, heat medium exchanger and regenerative hot stove.
设计并组装了热工综合试验台,在热工综合试验台上对热管换热器的换热性能进行了研究。
The general test of thermal units were designed and assembled. The heat transfer performance of heat pipe exchanger was studied on the general test of thermal units.
摘要为解决圆形热管换热器换热效率低、积灰和腐蚀严重的问题,应用椭圆管束进行了改造。
This paper discusses the effectiveness of substituting elliptic pipe bundles for round heat pipes to raise the heat exchange efficiency and prevent soot deposit and corrosion of heat exchangers.
模拟结果表明,热管的管径,管长,管间距和翅片结构均影响热管换热器的换热效率和压力降。
The simulation results indicated that heat pipe diameter, pipe length, tube pitch and fin structure had influence on the efficiency and pressure drop of heat pipe exchanger.
本文提出了热管换热器加热段和冷却段的三种长度比:流通长度比、经济长度比和许用安全长度比。
Three kinds of length ratio of evaporator to condenser of heat pipe heat exchangers are proposed: the flow length ratio, the saving length ratio, and the allowable safety length ratio.
介绍了重力热管换热器的工作原理、结构和传热特性,以及重力热管换热器在均苯四甲酸二酐生产中的应用情况。
The working principles, structure, and heat transfer characteristics of the gravity heat pipe heat exchangers, and their application in production of pyromellitic dianhydride anhydride were presented.
热管换热器的阻力降问题涉及到其研发、设计、应用以及防腐措施等方面,是热管式换热器研究的一个重要方面。
The question about heat-pipe exchanger′s resistance is an important aspect of heat-pipe exchanger′s research and is related to its development, design, application and anti-corrosion measure etc.
通过热管换热器将空气予热,用来提高热风炉的风温,从而降低高炉冶炼的成本。本文阐述了空气予器设计及结构特点。
The paper is introduced briefly the designing and structuring heat pipe exchangers to raise the temperature, increasing ecomical benefit and effect of smelt iron.
对热管换热器工业应用过程中热管存在的相容性、积灰结垢和低温腐蚀等几个主要问题进行了分析,提出了相应的解决办法。
Problems such as compatibility, ash deposit and corrosion which appear in industrial application of heat-pipe exchanger are analyzed, meanwhile, measures are brought forward.
利用该模型,采用复合形优化法,用QBASIC语言编程,在安装热管的面积一定状况下对碳钢-水热管换热器的结构进行优化。
QBASIC was used to make procedure, structure of heat pipe was optimized with complex method on condition that the area of fixing heat pipe was invariable.
结合该工程,介绍了海底世界工程特点、对室内空气温湿度的要求、暖通空调和防排烟系统设计以及直流式空调系统中热管换热器的应用。
The paper presents the status of and the operation method take by the accumulator as well as the direct current system one by one to ensure the reliable and steady-going operation of the whole system.
热管及热管换热器具有传热效率高、结构简单、安全可靠、安装方便、流体阻力小、不需维修和外加动力等优点,已经获得了广泛的工业应用。
The heat pipe and heat exchanger have the advantages of high heat transmission efficiency, simple structure, safety and reliability, small fluid resistance, needing no repairing and additional power.
不锈钢换热管是换热管是换热器的元件之一,置于筒体之内,用于两介质之间热量的交换。
Thee heat exchange tube of the stainless steel is one of the elements of the heat exchanger, which is arranged inside the cylinder and is used for the heat exchange between the two medium.
不锈钢换热管是换热管是换热器的元件之一,置于筒体之内,用于两介质之间热量的交换。
Thee heat exchange tube of the stainless steel is one of the elements of the heat exchanger, which is arranged inside the cylinder and is used for the heat exchange between the two medium.
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