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고 정밀 항공우주 유동해석 및 설계를 위한 공력계산 툴 = Essential computational tools for high-fidelity aerodynamic simulation and design
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- Authors
- Issue Date
- 2006-08
- Citation
- 유체기계공업학회 제4회 한국유체공학학술대회 논문집, v.1, pp. 33-36
- Keywords
- Overset Grid System(겹침 격자 기법) ; High-Fidelity Numerical Schemes(고정밀 수치기법) ; Sensitivity Analaysis(민감도 해석) ; Adjoint Variable Method(매개 변수법) ; Design Optimization (최적 설계)
- Abstract
- As the computing environment is rapidly improved, the interests of CFD are gradually focused on large-scale computation over complex geometry. Keeping pace with the trend, essential computational tools to obtain solutions of complex aerospace flow analysis and design problems are examined. An accurate and efficient flow analysis and design codes for large-scale aerospace problem are presented in this work. With regard to original numerical schemes for flow analysis, high-fidelity flux schemes such as RoeM, AUSMPW+ and higher order interpolation schemes such as MLP (Multi-dimensional Limiting Process) are presented. Concerning the grid representation method, a general-purpose basis code which can handle multi-block system and overset grid system simultaneously is constructed. In respect to design optimization, the importance of turbulent sensitivity is investigated. And design tools to predict highly turbulent flows and its sensitivity accurately by fully differentiating turbulent transport equations are presented. Especially, a new sensitivity analysis treatment and geometric representation method to resolve the basic flow characteristics are presented. Exploiting these tools, the capability of the proposed approach to handle complex aerospace simulation and design problems is tested by computing several flow analysis and design problems.
- Language
- Korean
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