<--- Back to Details
First PageDocument Content
Turbulence models / Aerodynamics / Parviz Moin / Turbulence / Computational fluid dynamics / Large eddy simulation / Filter / Engineering / John Kim / Fluid mechanics / Fluid dynamics / Physics
Date: 2014-09-29 14:19:10
Turbulence models
Aerodynamics
Parviz Moin
Turbulence
Computational fluid dynamics
Large eddy simulation
Filter
Engineering
John Kim
Fluid mechanics
Fluid dynamics
Physics

JULIAN COLE LECTURE in Aerospace Graduate Aerospace Laboratories of the California Institute of Technology Progress and challenges in numerical simulation of multi-physics turbulent flows in complex geometry A review of

Add to Reading List

Source URL: galcit.caltech.edu

Download Document from Source Website

File Size: 240,17 KB

Share Document on Facebook

Similar Documents

3次元CAD連携 熱流体解析プログラム CFdesign CFdesignは、流体解析の専門家によって利用されてきたCFD(数値流体力学:Computational Fluid Dynamics) を一般の設計者で

3次元CAD連携 熱流体解析プログラム CFdesign CFdesignは、流体解析の専門家によって利用されてきたCFD(数値流体力学:Computational Fluid Dynamics) を一般の設計者で

DocID: 1veed - View Document

DATA SHEET Creo Flow Analysis Extension (FAE) ® A complete computational fluid dynamics (CFD) solution for product designers and analysts

DATA SHEET Creo Flow Analysis Extension (FAE) ® A complete computational fluid dynamics (CFD) solution for product designers and analysts

DocID: 1ujns - View Document

International Journal of Engineering and Technology, Vol. 6, No.2, 2009, ppTEMPERATURE DISTRIBUTION OF EMPTY FRUIT BUNCH IN A VERTICAL REACTOR 3D MODEL SIMULATED BY COMPUTATIONAL FLUID DYNAMICS

International Journal of Engineering and Technology, Vol. 6, No.2, 2009, ppTEMPERATURE DISTRIBUTION OF EMPTY FRUIT BUNCH IN A VERTICAL REACTOR 3D MODEL SIMULATED BY COMPUTATIONAL FLUID DYNAMICS

DocID: 1uecp - View Document

A. Sharafpoor et al. / Journal of Chemical and Petroleum Engineering, 51 (2), December135 Unsteady-state Computational Fluid Dynamics Modeling of Hydrogen Separation from

A. Sharafpoor et al. / Journal of Chemical and Petroleum Engineering, 51 (2), December135 Unsteady-state Computational Fluid Dynamics Modeling of Hydrogen Separation from

DocID: 1u2vn - View Document

Real-time Rendering of Aerodynamic Sound using Sound Textures based on Computational Fluid Dynamics Yoshinori Dobashi† Tsuyoshi Yamamoto† Tomoyuki Nishita‡ †

Real-time Rendering of Aerodynamic Sound using Sound Textures based on Computational Fluid Dynamics Yoshinori Dobashi† Tsuyoshi Yamamoto† Tomoyuki Nishita‡ †

DocID: 1tkne - View Document