充液量 meaning in English
innage
Examples
- The main results in this paper are as follows : ( 1 ) study on starting up performance of thermosyphon : according to the study on the states before and after starting up of thermosyphon with the various filling amount , it is considered that the phase change heat transfer inside the copper - water thermosyphon with a large ratio of length and diameter is not only influenced by the boiling degree of superheat , but also controlled by evaporation and companied with the boiling of the thin liquid film
本文的主要研究结果为: ( 1 )热虹吸管启动性能的研究:通过对从不同充液量、启动前状态、内部汽化核心状态对启动的影响所进行的试验研究,认为大长径比的铜?水热虹吸管管内相变不仅仅为沸腾,而是以蒸发为主,伴有薄液膜的沸腾。 - With experiments and theoretical analyzing , we find when the heat discharge is smaller than the entrainment limited , what influences the ability of heat - transmitting of work quality is the quantity of injection and dry limit fluid inventory , the optimum quantity of injection of the three working fluid is 8 ~ 14g ; and the delivering factor that transmission coefficient is determined by capillary limit , not the heat transmission ability of the thermal syphon . therefore , among the three working fluid , acetone is the best . low wind - speed has the obvious function in heat transmission of the thermal syphon
本文通过实验研究和理论分析,认为在热流量小于携带极限时,影响工质传热能力的是cpu重力热管的充液量和其干涸极限,此次所实验的三种工质,最佳充液量应当在8g ~ 14g ;传输因素主要决定普通热管的毛细极限,而不是重力热管传热能力的决定因素;三种工质中的最佳工质是丙酮;小风速时风速的变化对cpu重力热管的传热有明显的作用,但在风速大于1m / s以后,风速增加对于cpu重力热管的传热能力的增加效果减缓。 - It shows that the injection quantity and the difference of temperature distribute as a parabola which is at the same load , and the minimum of the parabola corresponds to the optimum quantity of injection ( g ) . under the condition that the quantity of injected mass , the air speed and the heat quantity is respectively g , v and q , the research demonstrates that the pentium iv chip ' s temperature variation can be controlled under 40c and work normally when the wind speed overpass 1 . 5m / s and the power dissipation of the chip is 60w . otherwise this paper calculates the flooding limit of thermosiphon with several different methods
对其充灌量、散热量、电子元件( cpu模拟芯片)表面与环境温度之差及通风、流速的影响进行了系统的测试,发现充液量与温差的关系在负荷不变时呈抛物线分布,其极小值点对应的充液量是最佳充液量g 。在充液量为g时,对风速v 、散热量q进行的研究表明,当风速超过1 . 5m / s后,奔腾芯片在60w发热条件下芯片温度小于40 ,能满足长期正常工作。