空气动力学学报
空氣動力學學報
공기동역학학보
ACTA AERODYNAMICA SINICA
2010年
1期
61-65
,共5页
刘剑明%赵宁%胡偶%王东红
劉劍明%趙寧%鬍偶%王東紅
류검명%조저%호우%왕동홍
GhostCell方法%笛卡尔网格%自适应%欧拉方程
GhostCell方法%笛卡爾網格%自適應%歐拉方程
GhostCell방법%적잡이망격%자괄응%구랍방정
Ghost cell methods%Cartesian grids%adaptive grids%Euler equation
在笛卡尔网格中,利用Ghost Cell方法处理浸入边界,模拟二维无粘可压缩流.针对静止物体,比较了各种不同的Ghost Cell边界条件下的熵误差,总压误差,以及阻力系数.此外为提高激波分辨率,将Ghost Cell方法与基于叉树结构的自适应笛卡尔网格算法相结合,数值结果显示本文的方法是切实可行的.
在笛卡爾網格中,利用Ghost Cell方法處理浸入邊界,模擬二維無粘可壓縮流.針對靜止物體,比較瞭各種不同的Ghost Cell邊界條件下的熵誤差,總壓誤差,以及阻力繫數.此外為提高激波分辨率,將Ghost Cell方法與基于扠樹結構的自適應笛卡爾網格算法相結閤,數值結果顯示本文的方法是切實可行的.
재적잡이망격중,이용Ghost Cell방법처리침입변계,모의이유무점가압축류.침대정지물체,비교료각충불동적Ghost Cell변계조건하적적오차,총압오차,이급조력계수.차외위제고격파분변솔,장Ghost Cell방법여기우차수결구적자괄응적잡이망격산법상결합,수치결과현시본문적방법시절실가행적.
In this paper, the local refined Cartesian grid is used to simulate stationary objects. Various Ghost cell methods are described and used to evaluate inviscid compressible flow with immersed boundary. In order to get further information, we compare the various Ghost cell boundary conditions under the considera-tion of relative entropy and total pressure error. Furthermore, the dag coefficients are compared. In order to improve the resolutions of the shock and wake flow, tree structure adaptive Cartesian grid is adopted, and the adaptive criterion of solution is presented. Numerical results show that this method is very effective.
