VSIA:一种求解流体力学方程的多积分矩公式(英文)

VSIA:a Multi Integrated Moment Formulation for Hydrodynamics

下载PDF

导出

摘要使用变量间的积分矩公式给出一种构造流体力学方程数值格式的方法 ,即体积面积分平均方法 (VSIA) .该方法使用两种积分矩VIA(体积积分平均 )和SIA(面积积分平均 )给出一种完全的守恒型体积积分公式 .基于一类守恒型半Lagrange输运算法CIP CSL ,能够清晰地构造出VSIA .对一般演化方程进行讨论 ,并应用于Burgers湍流。 Preliminary work on constructing numerical models for fluid dynamics is presented by utilizing the integrated moments of the dependent variables.The presented method,namely VSIA(Volume Surface Integrated Average),employs two integrated moments which are called VIA(Volume Integrated Average) and SIA(Surface Integrated Average), and gives a completely conservative formulation for the VIA.The numerical model is based on the CIP\|CSL schemes,a class of conservative semi\|Lagrangian transport schemes,and can be constructed under a lucid guideline.Some numerical aspects of the VSIA for general evolution equations will be discussed,and implementations for Burgers turbulence,inviscid compressible flow and incompressible viscous flow are then presented.

作者肖锋

机构地区日本国立东京工业大学能源系

出处《计算物理》 CSCD 北大核心 2003年第6期483-492,共10页 Chinese Journal of Computational Physics

关键词流体力学方程多积分矩公式 VSIA 体积积分平均面积积分平均 Lagrange输运算法 Burgers湍流无粘滞可压缩流不可压缩粘滞流 hydrodynamics formulation volume surface integrated average multi integrated moment

分类号 O241.8 [理学—计算数学] O35 [理学—流体力学]

引文网络
相关文献

参考文献13

1[1]Clappier A. A correction method for use in multidimensional time-splitting advection algorithms: application to two-and three-dimensional transport [ J]. Mon Wea Rev, 1998,126: 223 - 242.
2[2]Drikakis D. A memory integral model for large eddy simulation [A]. Proceedings of ECCOMAS CFD 2001 Conference[C]. Swansea, Wales, UK, 4-7 Sept. 2001.
3[3]Drikakis D. Embedded turbulence model in numerical methods for hyperbolic conservation laws [ J] . Int J Numer Meth in Engrg, in press, 2002.
4[4]Ghia U, Ghia K N, Shin C T. High-resolution for incompressible flow using the Navier-Stokes equations end a multigrid method [ J ]. J Comput Phys, 1982,48: 387 - 411.
5[5]Rider W J, Drikakis D. High resolution methods for computing turbulent flows [ A ]. Turbulent flow computation[M]. In: Drikakis D, Geurts B J eds, Kluwer Academic Publishers, 2002.43 - 74.
6[6]Osher S. Riemann solvers, the entropy condition, and difference approximations [J]. SIAM J Numer Anal, 1984,31:217 - 235.
7[7]Strang G. On the construction and comparison of difference schemes [J]. SIAM J Numer Anal, 1968, 5:506-517.
8[8]Xiao F, Yabe T. Completely conservative and oscillationless semi-Lagrangian schemes for advection transportation[J]. J Comput Phys, 2001,170:498 - 522.
9[9]Xiao F, Yabe T, Peng X, Kobayashi H. Conservation and oscillation-less transport schemes based on rational functions, to be published.
10[10]Yabe T, Aoki T. A universal solver for hyperbolic-equations by cubic-polynomial interpolation. 1. one-dimensional solver[J]. Comput Phys Commun, 1991,66:219 - 232.

1任春风,马逸尘,杨金勇.定常不可压粘性流的两重网格算法(英文)[J].工程数学学报,2003,20(4):101-104.
2孟庆国.ANALYTIC SOLUTIONS OF INCOMPRESSIBLE LAMINAR FLOW IN THE INLET REGION OF A PIPE[J].Applied Mathematics and Mechanics(English Edition),2004,25(8):894-897.
3陈二云,赵改平,戴韧,马大为.可压缩多介质流动的间断有限元方法[J].爆炸与冲击,2010,30(4):419-423. 被引量：1
4张阳.一类半线性对流扩散问题特征-有限体积法H^1模误差估计[J].高等学校计算数学学报,2007,29(2):157-165. 被引量：1
5吴子牛,朱自强.可压流几何分区计算[J].力学进展,1998,28(4):509-520. 被引量：15
6张美花.恒粘度可压流N-S方程解的存在及性质[J].九江学院学报（自然科学版）,2016,31(1):61-62.
7徐延安.一些求面积或体积积分公式的推广[J].纺织高校基础科学学报,1997,10(4):400-403.
8郝名望,梁立孚,叶正寅.不可压粘性流体力学初值问题的拟变分原理及其广义变分原理[J].空气动力学学报,2011,29(3):317-324. 被引量：2
9邓大文,任坤.半平面上不可压粘性流涡量的渐近行为[J].湘潭大学自然科学学报,2007,29(3):14-19.
10赖耕,盛万成.二维拟定常可压流Euler方程组的简单波[J].应用数学和力学,2010,31(7):791-800. 被引量：2

计算物理

2003年第6期

浏览历史

内容加载中请稍等...

VSIA:一种求解流体力学方程的多积分矩公式(英文)

参考文献13

相关作者

相关机构

相关主题

浏览历史