1) thermal dispersion
热弥散,热扩散
2) exothermic dispersion
弥散放热
3) thermal dispersion
热弥散
1.
Accustomed models of thermal dispersion used in porous medium and Aquifer Thermal Energy Storage (ATES) were summarized.
综述了多孔介质和含水层蓄能中常用的热弥散模型,把热弥散模型归结为两类:速度一次方模型和含水层滞止导热系数倍数模型。
2.
The comparison of numerical simulation and experimental results indicates that the local thermal non-equilibrium model with consideration of thermal dispersion should be used in numerical simulation of forced convection heat transfer of air in glass or bearing steel spherical particles porous structures.
数值模拟与实验的比较表明,对空气在玻璃或轴承钢颗粒多孔结构中的对流换热进行数值模拟时,应采用考虑热弥散效应的局部非热平衡模型。
3.
The simulation showed that the output of the model was sensitive to the permeability coefficient and the thermal dispersion tensor of the aquifer,with the thermal dispersion tensor highly significant.
并将井管壁和井孔壁的换热包含于控制方程中,便于含水层、井孔、井管温度场的整场求解;在含水层传热中,考虑了热弥散的影响。
4) XD (exothermic dispersion reaction)
热弥散反应
5) thermal diffuse scattering
热弥漫散射
6) thermal dispersion coefficient
热弥散系数
补充资料:放热峰
分子式:
CAS号:
性质:在差热分析曲线中试样温度高于参比物质温度的峰,即△T为正值。
CAS号:
性质:在差热分析曲线中试样温度高于参比物质温度的峰,即△T为正值。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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