1) k-ε model
k-ε模型
1.
Numerical simulation with the standard k-ε model was performed to study single-phase convective heat transfer at the impinging zone of non-immersed slot jet.
采用标准k-ε模型对非淹没缝隙射流冲击区单相对流换热进行数值模拟。
2.
K-ε model was dispersed by the co ntrol-volume method and solved by the SIMPLE algorithm.
建立了旋风静电除尘器单相准三维湍流的K-ε模型。
3.
Based on the consideration of the dispersed phase interaction with continuous phase, applying the k-ε model and the stochastic trajectory model with to the gas phase and solid phase,the particle motion trajectory was simulated successfully.
在考虑气相与颗粒固相之间相互作用的前提下,对气相采用带旋流修正的k-ε模型,对颗粒固相采用随机轨道模型,成功地模拟出颗粒的运动轨迹。
3) RNG k-ε model
RNG k-ε模型
1.
Numerical simulation of oil volume concentration field of coalescers based on RNG k-ε model;
基于RNG k-ε模型的聚结器油相体积浓度场数值模拟
4) RNG k-εmodel
RNG k-ε模型
1.
First of all,the RNG k-εmodel is adopted to simulate the unsteady flow around square cylinder,research shows that the results of unsteady numerical simulation could effectively reflect the basic characteristics of flow and fits well with the experimental and LES simulation results.
首先采用了RNG k-ε模型对方柱绕流进行非稳态数值模拟研究,通过与实验以及大涡模拟结果进行比较,发现RNG k-ε模型可以获得满意结果;接着又对一种典型的建筑物绕流形式进行数值模拟研究,分别采用了稳态和非稳态模拟方法,模拟结果表明了采用非稳态数值模拟方法可以获得与实验以及大涡模拟更为接近的结果。
5) RNG-k-ε model
RNG-k-ε模型
6) k ε A 2 nonlinear three equation model
k-ε-A2模型
补充资料:ε-caprolactone
分子式:
CAS号:
性质:无色液体。沸点96~97.5℃(1.33kPa)。密度1.0693g/cm3(20℃)。折射率1.4635。有芳香气味。不稳定,易聚合。加热变成二聚体或高分子聚酯。充氮保存,并加入少量亚硫酸酯类稳定剂。由过氧乙酸与环己酮反应制得。用于制聚己内酯、己内酰胺、己二酸和黏合剂。也用作涂料、环氧树脂的稀释剂和溶剂。与各种树脂掺合可改进光泽、透明性和防黏性。
CAS号:
性质:无色液体。沸点96~97.5℃(1.33kPa)。密度1.0693g/cm3(20℃)。折射率1.4635。有芳香气味。不稳定,易聚合。加热变成二聚体或高分子聚酯。充氮保存,并加入少量亚硫酸酯类稳定剂。由过氧乙酸与环己酮反应制得。用于制聚己内酯、己内酰胺、己二酸和黏合剂。也用作涂料、环氧树脂的稀释剂和溶剂。与各种树脂掺合可改进光泽、透明性和防黏性。
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参考词条