1) limit value of overall heat transfer coefficient
传热系数限值
1.
This thesis mainly discussses the limit value of overall heat transfer coefficient of energy efficiency window and performances of heat transfer of the glass system in the strict and cold region.
本论文主要对严寒地区居住建筑窗的传热系数限值和玻璃系统的传热性能进行分析和讨论。
2) limited value of heat transfer coefficient for building envelope(prescriptive index)
围护结构传热系数限值(规定性指标)
3) modifying factors of heat transfer
传热系数修正值
4) numerical heat transfer
数值传热
1.
A Study of Meshless Method in Numerical Heat Transfer;
无网格法在数值传热学中的应用研究
2.
With the development of the computer, the method of Computer Aided Design (CAD) and the method based on the Computational Fluid Dynamics (CFD) and numerical heat transfer were believed to be the two most important design tools for the shell-and-tube heat exchangers in the 21st century.
随着计算机技术的发展,计算机辅助设计法(CAD)和基于计算流体动力学 (CFD)和数值传热学的设计方法将是 21世纪管壳式换热器的 2种主要设计方法;同时,为了进行有效的管壳式换热器工艺设计,还需要面对目前存在的诸如多相流动及传热、最优化、传热强化、流体振动、污垢、高粘度流体、物性数据库、湍流、非线性传热、换热器中流动及传热过程的数值模拟等十大挑战性难题,这也是未来的研究方向。
3.
Based on the numerical heat transfer,a numerical simulation on the two dimension temperature distribution of a plane with two kind of defects had been done,and studied the reconstruction of defect according to the simulated temperature distribution theoretically.
在数值传热学的基础上,从理论上对材料内部热阻性、热容性两类缺陷的平板进行了二维温度场的数值模拟,并根据模拟的温度场,对缺陷进行了模拟再现研究。
5) Limited ValueCoefficient
限值系数
6) Heat Transfer Coefficient
传热系数
1.
A new method to determine heat transfer coefficient in membrane distillation process;
一种测定膜蒸馏过程传热系数的新方法
2.
The comparison of heat transfer coefficient of imported and domestic polymerizer for the production of PVC by bulk polymerization;
进口、国产本体法PVC聚合釜传热系数的比较
3.
Determination of heat transfer coefficient of flow string during continuous gas lift;
连续气举条件下举液管柱传热系数的确定
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