1) combined heat transfer coefficient
综合热传递系数
2) HCHTC
高综合传热系数
1.
High complex heat-transfer coefficient (HCHTC) and low resistance coefficient (LRC) is the important economic technical indexes for heat-exchanger, To realize HCHTC and LRC, various measures are introduced.
高综合传热系数和低阻力系数是换热器的重要经济技术指标。
3) complex heat transfer coefficient
综合传热系数
1.
CFD simulation on complex heat transfer coefficient of a mechanically ventilated airflow window;
内呼吸玻璃幕墙综合传热系数CFD模拟计算
2.
It was shown that the particle diameter has the greatest effect on complex heat transfer coefficient, but rotational speed has the smallest.
通过建立滚筒冷渣器的动态实验系统,采用正交实验设计方法测量了排渣粒径、灰渣填充量和滚筒转速对综合传热系数的影响。
4) integrated heat transfer coefficient
综合传热系数
1.
According to the test results of heating systems in seven residential quarters, calculates the heat loss through open windows using the integrated heat transfer coefficient of buildings.
根据对7个住宅小区供热系统的测试结果,利用建筑围护结构综合传热系数计算得出了各个小区的开窗热损失。
2.
Discusses the influences of the shading and airspace width on the integrated heat transfer coefficient.
讨论了遮阳设施、空气层宽度等因素对综合传热系数的影响。
3.
Simulates and calculates integrated heat transfer coefficients and design cooling and heating loads for different facade buildings by Window6.
2软件模拟计算了不同幕墙的综合传热系数和设计日冷热负荷。
5) thermal exergy transfercoefficient
热传递系数
6) heat transfer coefficient
热传递系数
1.
The analytical expressions of heat transfer coefficient(HTC)were induced.
分析了金属凝固过程中界面热传递的 4个阶段及在各阶段热传递的机理 ,推导出界面热传递系数在各个阶段的表达式。
2.
In order to achieve an effective control of the heat transfer coefficient(h_q)(between) microsphere and furnace atmosphere in the fabrication of hollow glass microsphere by sol-gel technology,the effects of component percentage,temperature and(total) pressure of gas mixture on h_q are studied.
为实现干凝胶法制备空心玻璃微球工艺中载气与微球间传热过程的有效控制,建立了载气与微球之间综合热传递系数的计算模型,研究了载气环境参数(组分、温度和压力)和微球几何参数(直径和壁厚)对热传递系数的影响。
3.
The calculative method of heat transfer coefficient between ice cover and water is analyzed considering the heat balance at ice bottom firstly.
首先讨论了通过冰盖底面的热量平衡来计算冰水间热传递系数的方法,并利用—冬季辽 19971998 东湾海域定点观测的气象、水文和海冰资料,对冰水间的热传递系数进行了计算。
补充资料:表观总传热系数
分子式:
CAS号:
性质:指蒸发器单位传热面上单位时间内的传热量被表观温度差(见表观温度差)除得的值。由于用表观温度差表示加热室饱和蒸气和蒸发室溶液间的温度差不很合理,由此得出的表观总传热系数在蒸发计算中也很少采用。
CAS号:
性质:指蒸发器单位传热面上单位时间内的传热量被表观温度差(见表观温度差)除得的值。由于用表观温度差表示加热室饱和蒸气和蒸发室溶液间的温度差不很合理,由此得出的表观总传热系数在蒸发计算中也很少采用。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条