| 1. | New super cooling technique based on thermally driven theory is a new kind of cooling technique
新型超级冷却技术是基于热驱动理论的一种新型冷却技术。 |
| 2. | The thermally driven heat transfer phenomena in four small - size circular channels in the gravitation field were compared by numerical simulation
摘要采用数值模拟方法,比较了重力场下4种细微循环通道内的热驱动换热现象。 |
| 3. | Experimental methods focus on measurement and analysis of thermally driven and wind - driven airflows , lighting intensity and glare , and heat flow and thermal storage
实验方法的重点包括下列数据的量测与分析:由热或风所引起的气流、照明强度和眩光、热流和热储存。 |
| 4. | The results indicate that the four circular channels all follow the same law of thermally driven heat transfer , and that the ability of thermally driven heat transfer improves with the increase in the number of the circular channels
研究表明, 4种循环通道具有相同的热驱动换热规律,并且随着循环通道的增加,热驱动换热能力逐渐增强。 |
| 5. | After the thought of applying the porous medium to new super cooling technique has been validated , a study on thermally driven heat transfer in enclosure filled with porous medium in a centrifugal force field is carried out
新型超级冷却技术中应用多孔介质的想法得到验证以后,本文便对离心力场下装有多孔介质的封闭腔体内流体的流动和换热展开了研究。 |
| 6. | Thermally driven comparison of small single - cyclic channel and small multi - cyclic channel in gravitation field is performed through experiments and numerical simulations . the results show that the change of temperature at walls of the heat end minishes and the temperature distribution uniforms with the addition of the cyclic channels . and the ratio of the circuit ’ s height ( h ) to the distance between cooled and heat end ( w ) has effect on heat transfer
本文首先采用实验与数值模拟相结合的方法对重力场下单循环和多循环微小通道内流体的热驱动进行比较研究,发现随着循环通道的增加,热端壁温起伏变化减小,温度分布逐渐均匀化,而且通道高度与冷热端间距的比值h / w的变化对通道换热也有影响。 |
