한국전산유체공학회:학술대회논문집
- 2001.05a
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- Pages.111-115
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- 2001
Generalized Hydrodynamic Computational Models for Diatomic Gas Flows
이원자 기체 유동 해석을 위한 일반유체역학 계산모델 개발
Abstract
The study of nonlinear gas transport in rarefied condition or associated with the microscale length of the geometry has emerged as an interesting topic in recent years. Along with the DSMC method, several fluid dynamic models that come under the general category of the moment method or the Chapman-Enskog method have been used for this type of problem. In the present study, on the basis of Eu's generalized hydrodynamics, a computational model for diatomic gases is proposed. The preliminary result indicates that the bulk viscosity plays a considerable role in fundamental flow problems such as the shock structure and shear flow. The general properties of the constitutive equations are obtained through a simple mathematical analysis. With an iterative computational algorithm of the constitutive equations, numerical solutions for the multi-dimensional problem can be obtained.
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