A NEW SIMULATION METHOD FOR SEPARATING AND RECIRCULATING FLOWS(Numerical Simulation)
スポンサーリンク
概要
- 論文の詳細を見る
This paper presents the performance of a new non-linear k-ω model for computations of turbulent flows and heat transfer in several different flow types. This model is developed by incorporating cubic terms that take into account the anisotropy of the Reynolds stresses, and the effects of extra strain rates due to a streamline curvature and the rotation of the flow passages. Five cases of turbulent flows are numerically simulated: fully developed turbulent flows in a channel without rotation, in a curved channel, in a rotating channel, and the flow over a two-dimensional blunt rectangular section. Both flow and heat transfer characteristics were examined for the above mentioned flow passages. The governing equations are discretized using a non-staggered finite-volume formulation employing a bounded higher-order differencing scheme. The comparisons are made among the experimental data and the results obtained by DNS, linear and non-linear k-ω models. It is shown that the non-linear k-ω model generally gives superior results over the existing linear k-ω model by demonstrating better agreement with the data for both flow and heat transfer computations.
- 一般社団法人日本機械学会の論文
- 2005-10-05
著者
-
SONG B.
Department of Cell Biology, University of Alabama at Birmingham
-
Amano R.
Department of Mechanical Engineering University of Wisconsin-Milwaukee
-
Song B.
Department Of Cell Biology University Of Alabama At Birmingham
関連論文
- Roles of the Primary Cilium Component Polaris in Synchondrosis Development
- TED-AJ03-216 SIMULATION OF METAL MATRIX COMPOSITE SOLIDIFICATION IN THE PRESENCE OF COOLED FIBERS
- TS-92 Numerical Predictions of Leakage Flow over Shrouded Turbine Blades(Session D-3 Internal Flow 2)
- A NEW SIMULATION METHOD FOR SEPARATING AND RECIRCULATING FLOWS(Numerical Simulation)