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논문 기본 정보
- 자료유형
- 학술저널
- 저자정보
- 저널정보
- 대한기계학회 Journal of Mechanical Science and Technology Journal of Mechanical Science and Technology Vol.20 No.12
- 발행연도
- 2006.12
- 수록면
- 2,218 - 2,229 (12page)
이용수
초록· 키워드
오류제보하기
A conservative finite-volume numerical method for unstructured grids with the cell-centered method has been developed for computing flow and heat transfer by combining the attractive features of the existing pressure-based procedures with the advances made in unstructured grid techniques. This method uses an integral form of governing equations for arbitrary convex polyhedra. Care is taken in the discretization and solution procedure to avoid formulations that are cell-shape-specific. A collocated variable arrangement formulation is developed, i.e. all dependent variables such as pressure and velocity are stored at cell centers. For both convective and diffusive fluxes the forms superior to both accuracy and stability are particularly adopted and formulated through a systematic study on the existing approximation ones. Gradients required for the evaluation of diffusion fluxes and for second-order-accurate convective operators are computed by using a linear reconstruction based on the divergence theorem. Momentum interpolation is used to prevent the pressure checkerboarding and a segregated solution strategy is adopted to minimize the storage requirements with the pressure-velocity coupling by the SIMPLE algorithm. An algebraic solver using iterative preconditioned conjugate gradient method is used for the solution of linearized equations. The flow analysis code (PowerCFD) developed by the present method is evaluated for its application to several 2-D structured-mesh benchmark problems using a variety of unstructured quadrilateral and triangular meshes. The present flow analysis code by using unstructured grids with the cell-centered method clearly demonstrate the same accuracy and robustness as that for a typical structured mesh.
목차
1. Introduction
2. Numerical Methods
3. Results
4. Conclusions
References
참고문헌 (21)
참고문헌 신청
Davison, L., 1996, "A Pressure Correction Method for Unstructured Meshes with Arbitrary Control Volumes," Int. J. Numer. Methods Fluids, Vol.22, pp.265~281.
Demirdzic, I. and Muzaferija, S., 1995, "Numerical Method for Coupled Fluid Flow, Heat Transfer and Stress Analysis using Unstructured Moving Meshes with Cells of Arbitrary Topology," Comput. Methods Appl. Mech. Engrg., Vol.125, pp.235~255.
Demirdzic, I., Lilek, Z. and Peric, M., 1992, "Fluid Flow and Heat Transfer Test Problems for Non-Orthogonal Grids: Bench-Mark Solutions," Int. J. Numer. Methods Fluids, Vol.15, pp.329~354.
Ferziger, J. H. and Peric, M., 2002, Computational Methods for Fluid Dynamics, 3rd ed., Springer.
Hortmann, M., Peric, M. and Scheuerer, G., 1990, "Finite Volume Multigrid Prediction of Laminar Natural Convection: Benchmark Solutions," Int. J. Numer. Methods Fluids, Vol.11, pp.189~207.A.
Demirdzic, I. and Muzaferija, S., 1995, "Numerical Method for Coupled Fluid Flow, Heat Transfer and Stress Analysis using Unstructured Moving Meshes with Cells of Arbitrary Topology," Comput. Methods Appl. Mech. Engrg., Vol.125, pp.235~255.
Demirdzic, I., Lilek, Z. and Peric, M., 1992, "Fluid Flow and Heat Transfer Test Problems for Non-Orthogonal Grids: Bench-Mark Solutions," Int. J. Numer. Methods Fluids, Vol.15, pp.329~354.
Ferziger, J. H. and Peric, M., 2002, Computational Methods for Fluid Dynamics, 3rd ed., Springer.
Hortmann, M., Peric, M. and Scheuerer, G., 1990, "Finite Volume Multigrid Prediction of Laminar Natural Convection: Benchmark Solutions," Int. J. Numer. Methods Fluids, Vol.11, pp.189~207.A.
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UCI(KEPA) : I410-ECN-0101-2009-550-017534789