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      Three-Dimensional Building-Cube Method for Inviscid Compressible Flow Computations

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      https://www.riss.kr/link?id=A103730288

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      다국어 초록 (Multilingual Abstract)

      In this study, the Building-Cube method (BCM) devised for calculating large-scale flows and getting rid of the grid dependencies of computational results is extended to perform 3D inviscid compressible fluid flow simulations. The proposed scheme divid...

      In this study, the Building-Cube method (BCM) devised for calculating large-scale flows and getting rid of the grid dependencies of computational results is extended to perform 3D inviscid compressible fluid flow simulations. The proposed scheme divides a computational domain into a large number of cubes with different sizes, and each individual cube is a sub-flow field simulated with a Cartesian grid of uniform spacing and an equal number of cells and nodes. Through the proposed scheme, we determine the geometric size of individual cube by Adapting the flow characteristics and geometrical shapes using an adaptively refining Cartesian grid approaches. The uniform spacing and equal number of cells and nodes in the Cartesian grid of individual cubes ensure a good performance for parallel computations; large result data can be handled efficiently. Further, an algorithm to solve the inviscid flow equations on the Building-Cube mesh for three-dimensional (3D) geometries is presented. The validation and performance of the proposed 3D BCM are demonstrated through comparisons of the computed results with the experimental data for the ONERA M6 wing and ONERA M5 wing-fuselage configurations.

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      참고문헌 (Reference)

      1 Yin, J., "Sound Generation from Gust-Airfoil Interaction using CAA-Chimera Method" 2001

      2 Nakahashi, K., "Some Challenges of Realistic Flow Simulations by Unstructured Grid CFD" 43 (43): 769-783, 2003

      3 Dadone, A., "Rapid Aerodynamic Optimization using Far-Field Coarsened Cartesian Grids" 2004

      4 Schmitt, V., "Pressure Distributions on the Onera-M6-Wing at Transonic Mach Numbers, Experimental Data Base for Computer Program Assessment" 1979

      5 Obayashi, S., "Practical Formulation of a Positively Conservative Scheme" 32 (32): 1093-1095, 1994

      6 Gaitonde, D. V., "Pade-Type Higher-Order Boundary Filters for the Navier-Stokes Equations" 38 (38): 2103-2112, 2000

      7 송창헌, "Optimum Design of the Internal Flushing Channel of a Drill Bit using RSM and CFD Simulation" 한국정밀공학회 15 (15): 1041-1050, 2014

      8 Jatuporn Thongsri, "Optimum Airflow to Reduce Particle Contamination Inside Welding Automation Machine of Hard Disk Drive Production Line" 한국정밀공학회 16 (16): 509-515, 2015

      9 OpenMP, "OpenMP Compilers"

      10 강태진, "Numerical Investigation of Active Control for an S809 Wind Turbine Airfoil" 한국정밀공학회 14 (14): 1037-1041, 2013

      1 Yin, J., "Sound Generation from Gust-Airfoil Interaction using CAA-Chimera Method" 2001

      2 Nakahashi, K., "Some Challenges of Realistic Flow Simulations by Unstructured Grid CFD" 43 (43): 769-783, 2003

      3 Dadone, A., "Rapid Aerodynamic Optimization using Far-Field Coarsened Cartesian Grids" 2004

      4 Schmitt, V., "Pressure Distributions on the Onera-M6-Wing at Transonic Mach Numbers, Experimental Data Base for Computer Program Assessment" 1979

      5 Obayashi, S., "Practical Formulation of a Positively Conservative Scheme" 32 (32): 1093-1095, 1994

      6 Gaitonde, D. V., "Pade-Type Higher-Order Boundary Filters for the Navier-Stokes Equations" 38 (38): 2103-2112, 2000

      7 송창헌, "Optimum Design of the Internal Flushing Channel of a Drill Bit using RSM and CFD Simulation" 한국정밀공학회 15 (15): 1041-1050, 2014

      8 Jatuporn Thongsri, "Optimum Airflow to Reduce Particle Contamination Inside Welding Automation Machine of Hard Disk Drive Production Line" 한국정밀공학회 16 (16): 509-515, 2015

      9 OpenMP, "OpenMP Compilers"

      10 강태진, "Numerical Investigation of Active Control for an S809 Wind Turbine Airfoil" 한국정밀공학회 14 (14): 1037-1041, 2013

      11 Jameson, A., "Lower-Upper Implicit Schemes with Multiple Grids for the Euler Equations" 25 (25): 929-935, 1987

      12 Visbal, M. R., "High-Order-Accurate Methods for Complex Unsteady Subsonic Flows" 37 (37): 1231-1239, 1999

      13 Deng, X., "High-Order and High Accurate CFD Methods and their Applications for Complex Grid Problems" 11 (11): 1081-1102, 2012

      14 Nakahashi, K., "High-Density Mesh Flow Computations with Pre-/Post-Data Compressions" 2005

      15 Stone, C. P., "GPGPU Parallel Algorithms for Structured-Grid CFD Codes" 2011

      16 Dadone, A., "Further Developments in the Three-Dimensional Cartesian-Grid Ghost-Cell Method" 2006

      17 Möller, T., "Fast, Minimum Storage Ray/Triangle Intersection" 2 (2): 21-28, 1997

      18 Oki, Y., "Evaluation of Transonic Flow Analysis around Onera Model M5 Configuration using Casper-Hybrid Unstructured Navier-Stokes Code" 2004

      19 송창헌, "Design Study of a Rock Particle Flushing Device for a Rock Reaming Machine by CFD Simulation" 한국정밀공학회 16 (16): 1533-1542, 2015

      20 Sherer, S. E., "Computational Study of a UCAV Configuration using a High-Order Overset-Grid Algorithm" 2008

      21 O'Rourke, J., "Computational Geometry in C" Cambridge University Press 233-238, 1998

      22 Nakahashi, K., "Computational Fluid Dynamics" 77-81, 2003

      23 Nemec, M., "CAD-based Aerodynamic Design of Complex Configurations using a Cartesian Method" NAS 2004

      24 Nakahashi, K., "Building-Cube Method for Large-Scale, High Resolution Flow Computations" 2004

      25 Ding, L., "An Efficient Dynamic Mesh Generation Method for Complex Multi-Block Structured Grid" 6 (6): 120-134, 2014

      26 Nakahashi, K., "An Automatic Euler Solver using the Unstructured Upwind Method" 19 (19): 273-286, 1991

      27 Durbin, P. A., "An Approach to Local Refinement of Structured Grids" 181 (181): 639-653, 2002

      28 장진석, "A Study on Improvements in Spray Performance of a Pneumatic Nebulizer" 한국정밀공학회 16 (16): 1667-1673, 2015

      29 Thornburg, H., "A Structured Grid based Solution-Adaptive Technique for Complex Separated Flows" 89 (89): 259-273, 1998

      30 Murayama, M., "A Robust Method for Unstructured Volume/Surface Mesh Movement" 46 (46): 104-112, 2003

      31 Luo, H., "A Hybrid Cartesian Grid and Gridless Method for Compressible Flows" 214 (214): 618-632, 2006

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      연월일 이력구분 이력상세 등재구분
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2011-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2009-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2008-06-23 학회명변경 영문명 : Korean Society Of Precision Engineering -> Korean Society for Precision Engineering KCI등재
      2006-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      2005-05-30 학술지명변경 한글명 : 한국정밀공학회 영문논문집 -> International Journal of the Korean of Precision Engineering KCI등재후보
      2005-05-30 학술지명변경 한글명 : International Journal of the Korean of Precision Engineering -> International Journal of Precision Engineering and Manufacturing
      외국어명 : International Journal of the Korean of Precision Engineering -> International Journal of Precision Engineering and Manufacturing      		 KCI등재후보
      2005-01-01 평가 등재후보 1차 PASS (등재후보1차) KCI등재후보
      2003-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      2016 1.38 0.71 1.08
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