1) heat pipe/thermosyphon
热管/热虹吸管
2) thermosyphon
['θə:məu,saifɔn]
热虹吸管
1.
The Study on the Strength of the Pulse Boiling in Thermosyphons;
热虹吸管内脉冲沸腾强度的研究
2.
The Study on the Frequency of the Geyser Boiling in Thermosyphons;
热虹吸管间歇沸腾频率的研究
3.
Experimental Study of Evaporators with Novel Enhancement Structure in Advanced Thermosyphon System;
先进热虹吸管系统中具有新颖强化传热表面蒸发器的实验研究
3) thermosiphon
[英][,θə:məu'saifɔn] [美][,θɝmo'saɪfən]
热虹吸管
1.
Experiment of characteristics of thermosiphon heat recovery equipment under summer condition;
热虹吸管能量回收设备夏季工作特性的实验研究
2.
The authors have from a theoretical and experimental viewpoint studied the working characteristics of the evaporation section of a thermosiphon, to which nanoparticles have been added.
提出了在热虹吸管里面添加纳米颗粒。
3.
A new method of enhancing heat transfer of the heating section of a two-phase closed thermosiphon was proposed.
提出了一种新的提高传热的方法———在以水为工作液体的两相闭式热虹吸管中添加一定数量的纳米颗粒 。
4) thermosyphon radiator
热虹吸管散热器
1.
The column-type thermosyphon radiator using water, R11, acetone and methanol as heat-pipe working medium and the conventional radiator using hot water as heating medium are compared on both heat radiation capacity and surface temperature homogeneity.
对以水、R11、丙酮、甲醇为热管工质的柱型热虹吸管散热器与以热水作为供热介质的常规散热器,从散热能力和表面温度的均匀性两方面进行了比较。
2.
Heat transfer of the thermosyphon radiator is analyzed, experimental tests with acetone as thermosyphon working fluid have been performed, and good agreement between measurement and calculation with analysis model is obtained.
对热虹吸管散热器进行传热分析,并以丙酮为热虹吸工质进行了实验验证,测试结果与分析模型计算有较好的一致性。
5) thermosyphon heat exchanger
热虹吸管换热器
1.
Focusing on the ventilation characteristics of the common housing,a thermosyphon heat exchanger prototype was designed.
针对普通住宅日常通风换气的特点设计出一台小型热虹吸管式通风换热器的样机,并利用热虹吸管换热器对房间通风系统中的冷量(热量)进行热回收实验研究。
6) carbon-steel/water thermosyphon
碳钢-水热虹吸管
1.
To be applied to low-temperature under-floor heating system, the performance of a carbon-steel/water thermosyphon is studied.
为了研究用于低温地板采暖的碳钢-水热虹吸管的传热性能,在不同的倾角(-4°-90°)、热水温度 (40-60℃)、热水流量(0。
补充资料:倒虹吸管
倒虹吸管 inverted siphon 从地下或敷设在地面穿过河渠、溪谷、洼地或道路的输水压力管道 。多采用钢筋混凝土管或预应力钢筋混凝土管,也采用混凝土管或钢管。低水头时可用浆砌石管。倒虹吸管分为3个部分。① 进口段:包括渐变段、铺盖和护底等防渗防冲设施、拦污栅、闸门、进水口等。当含沙量大时还设沉沙池。②管身:断面多为圆形,也用矩形或直墙圆拱形。可埋于地下,也可敷设于地面 。当管道跨越深谷和山洪沟时,可在深槽部分建桥,在其上铺设管道过河。管道在桥头两端山坡转弯处设镇墩加强稳定,并于其上开设放水冲沙孔。两岸管道仍沿地面敷设。这类倒虹吸管又称桥式倒虹吸管。③出口段:设消力池,并与下游平顺连接。倒虹吸管较渡槽造价低,施工简单 ;但水头损失较大 ,清淤较困难。 公元前180年在古希腊帕加马(今土耳其)建一座下凹深度超过200米、管径为30厘米的倒虹吸管。据《后汉书》记载,中国在186年已建造使用倒虹吸管。
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