COMPARISON OF LOW REYNOLDS NUMBER KAPPA-EPSILON TURBULENCE MODELS IN PREDICTING FULLY DEVELOPED PIPE FLOW

Hrenya CM.; Chakrabarti D.; Sinclair JL.; Bolio EJ.

首页> 外文期刊>Chemical Engineering Science >COMPARISON OF LOW REYNOLDS NUMBER KAPPA-EPSILON TURBULENCE MODELS IN PREDICTING FULLY DEVELOPED PIPE FLOW

【24h】

COMPARISON OF LOW REYNOLDS NUMBER KAPPA-EPSILON TURBULENCE MODELS IN PREDICTING FULLY DEVELOPED PIPE FLOW

机译：低雷诺数Kappaε湍流模型在预测完全发育的管道流动中的比较

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

A comparative study is presented of ten different versions of the low Reynolds number k-epsilon turbulence model. The individual models are briefly outlined and evaluated by application to fully developed pipe flow. Numerical simulations were performed at Reynolds numbers of 7000, 21,800, 50,000, and 500,000. Predictions of the mean axial velocity, turbulent kinetic energy, dissipation rate of turbulent kinetic energy, Reynolds shear stress, eddy viscosity, and skin friction coefficients are compared to both experimental and direct numerical simulation data. The relative performance of the models is assessed. It has been found that the predictions between the models can vary considerably, particularly for the turbulent kinetic energy, its dissipation rate, and the eddy viscosity. The results indicate that the model proposed by Myong and Kasagi (1990, JSME Int. J. 33, 63-72) has the best overall performance in predicting fully developed, turbulent pipe how. [References: 28]

机译：对低雷诺数k-ε湍流模型的十个不同版本进行了比较研究。简要概述了各个模型，并通过将其应用到全面开发的管道流量中进行了评估。雷诺数分别为7000、21,800、50,000和500,000进行了数值模拟。将平均轴向速度，湍动能，湍动能耗散率，雷诺剪切应力，涡流粘度和皮肤摩擦系数的预测与实验和直接数值模拟数据进行了比较。评估模型的相对性能。已经发现，模型之间的预测可以有很大的不同，特别是对于湍动能，其耗散率和涡流粘度。结果表明，由Myong和Kasagi（1990，JSME Int。J. 33，63-72）提出的模型在预测完全发展的湍流管道的运行方式方面具有最佳的总体性能。 [参考：28]

著录项

来源
《Chemical Engineering Science》 |1995年第12期|共19页
作者
Hrenya CM.; Chakrabarti D.; Sinclair JL.; Bolio EJ.;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
Direct simulation data; Boundary-layer flows; Near-wall; 2-equation model; Stress; Channel; Form;

机译：直接模拟数据边界层流动近壁二方程模型应力通道形式;

相似文献

外文文献
中文文献
专利

1. COMPARISON OF LOW REYNOLDS NUMBER KAPPA-EPSILON TURBULENCE MODELS IN PREDICTING FULLY DEVELOPED PIPE FLOW [J] . Hrenya CM., Chakrabarti D., Sinclair JL., Chemical Engineering Science . 1995,第12期

机译：低雷诺数Kappaε湍流模型在预测完全发育的管道流动中的比较
2. Modelling of concentrated fibre suspension pipe flow with low-Reynolds-number k-epsilon turbulence models: new damping function [J] . Cotas Carla, Asendrych Dariusz, Garcia Fernando, Nordic Pulp & Paper Research Journal . 2017,第1期

机译：低雷诺数k-ε湍流模型对集中纤维悬浮管流动的建模：新的阻尼功能
3. EVALUATION OF k-ε TURBULENCE MODELS IN PREDICTING DEVELOPING TURBULENT FLOW IN THE INLET REGION OF A PIPE [J] . Ching-Ho Lin, Len-Fu W. Chang Journal of the Chinese Institute of Engineers . 1996,第1期

机译：预测管道入口处不断发展的湍流的k-ε湍流模型的评估
4. Comparison of different turbulence models in pipe flow of various Reynolds numbers [C] . Desmond C. Lim, Hussain H. Al-Kayiem, Jundika C. Kurnia International Conference on Production, Energy and Reliability . 2018

机译：不同湍流模型在各种雷诺数管道流中的比较
5. Numerical Assessment of Eddy-Viscosity Turbulence Models of an Axial-Flow Turbine at a Low Reynolds Number. [D] . Estrada, Nick Dagoberto. 2016

机译：低雷诺数轴流式涡轮机涡流湍流模型的数值评估。
6. Osborne Reynolds pipe flow: Direct simulation from laminar through gradual transition to fully developed turbulence [O] . Xiaohua Wu, Parviz Moin, Ronald J. Adrian, 2015

机译：Osborne Reynolds管道流量：从层流到逐渐过渡到完全发展的湍流的直接模拟
7. Application of Different Low-Reynolds k-ɛ Turbulence Models to Model the Flow of Concentrated Pulp Suspensions in Pipes [O] . Cotas Carla, Silva Rui, Garcia Fernando, 2015

机译：不同的低雷诺k-ɛ湍流模型在管道中浓浆悬浮液流动建模中的应用
8. Low Reynolds number kappa-epsilon and empirical transition models for oscillatory pipe flow and heat transfer [R] . Bauer, Christopher 1993

机译：低雷诺数kappa-epsilon和振荡管道流动和传热的经验过渡模型

COMPARISON OF LOW REYNOLDS NUMBER KAPPA-EPSILON TURBULENCE MODELS IN PREDICTING FULLY DEVELOPED PIPE FLOW

摘要

著录项

相似文献

相关主题

期刊订阅