并进一步建立了快速冷却条件下凝固潜热处理的模型。
A mathematical model was developed to ensure that the latent heat was dealt with appropriately under high cooling rate.
研究了凝固潜热对过冷合金熔液中的等轴枝晶生长以及溶质场和温度场的分布的影响。
The effects of solidification latent heat on the growth of equiaxed dendrite, distribution of solute field and temperature field in undercooled liquid alloy were analyzed.
通过实验研究了空调蓄冷材料的凝固温度、融解温度、凝固潜热和融解潜热等热学性能。
The thermal properties of cool storage material include freezing and melting point, freezing and melting latent heat during the phase change process were investigated.
分析了雾化过程中的液滴的速度与粒度分布及凝固各阶段液滴凝固潜热的释放与环境导热之间的热平衡。
This paper analyzed the droplet velocity and size distribute, the thermal exchange of each stage between the droplet and environment during solidification.
在此基础上采用有限单元方法数值求解模型,并运用热焓法处理凝固潜热,得到了一定工艺条件下的稳态凝固温度场。
Using enthalpy to deal with latent heat of solidification the numerical model is solved by finite element method, and a steady temperature field can be obtained under a certain condition.
基于相变材料熔化和凝固过程的相变潜热储能系统适用于太阳能加热、电力的‘削峰填谷’、热能回收。
Latent heat storage system based on phase change materials' (PCMs) melting and freezing is particularly suitable for solar energy heating, peak-shift of electrical demand and heat recovery.
微观模拟不仅可以得到材料的凝固组织,而且还能为宏观模拟提供准确的潜热释放信息。
By micro modeling not only the solidified microstructure of materials can be predicted, but also the accurate information of latent heat releasing can be provided for the macro modeling.
潜热的等效是求解凝固传热问题常用的一种数值处理形式。
Equivalence for critical heat is one of the numerical treatment commonly used solving questions of solidification heat transfer.
潜热的等效是求解凝固传热问题常用的一种数值处理形式。
Equivalence for critical heat is one of the numerical treatment commonly used solving questions of solidification heat transfer.
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