船舶力学
船舶力學
선박역학
Journal of Ship Mechanics
2015年
9期
1023-1032
,共10页
史汝超%王光勇%黄瑞源%王有凯%李永池
史汝超%王光勇%黃瑞源%王有凱%李永池
사여초%왕광용%황서원%왕유개%리영지
流固耦合%水下爆炸%虚拟流体方法%水平集方法%欧拉-拉格郎日网格耦合
流固耦閤%水下爆炸%虛擬流體方法%水平集方法%歐拉-拉格郎日網格耦閤
류고우합%수하폭작%허의류체방법%수평집방법%구랍-랍격랑일망격우합
fluid-structure interaction%underwater explosion%Ghost Fluid Method%level set method%Eulerian-Lagrangian grids coupling
文章对强激波与水—弹性固体界面的相互作用进行了数值模拟。基于欧拉方程和弹性动力学方程推导了一个用于处理流固界面的近似黎曼关系。耦合流体区域的欧拉网格和固体区域的拉格郎日网格,用水平集方法追踪流固界面的位置。并分别用五阶WENO和双特征线格式离散流体控制方程和固体控制方程及捕捉强激波在流体和固体中的传播。流固界面附近的网格节点用虚拟流体方法求解。文中还将数值结果和强激波作用在水—固壁界面,水—可压缩固体界面得到的结果进行了对比分析及验证。数值模拟结果也表明了推导的近似黎曼关系和虚拟流体方法可很好地适用于水—弹性固体耦合问题。
文章對彊激波與水—彈性固體界麵的相互作用進行瞭數值模擬。基于歐拉方程和彈性動力學方程推導瞭一箇用于處理流固界麵的近似黎曼關繫。耦閤流體區域的歐拉網格和固體區域的拉格郎日網格,用水平集方法追蹤流固界麵的位置。併分彆用五階WENO和雙特徵線格式離散流體控製方程和固體控製方程及捕捉彊激波在流體和固體中的傳播。流固界麵附近的網格節點用虛擬流體方法求解。文中還將數值結果和彊激波作用在水—固壁界麵,水—可壓縮固體界麵得到的結果進行瞭對比分析及驗證。數值模擬結果也錶明瞭推導的近似黎曼關繫和虛擬流體方法可很好地適用于水—彈性固體耦閤問題。
문장대강격파여수—탄성고체계면적상호작용진행료수치모의。기우구랍방정화탄성동역학방정추도료일개용우처리류고계면적근사려만관계。우합류체구역적구랍망격화고체구역적랍격랑일망격,용수평집방법추종류고계면적위치。병분별용오계WENO화쌍특정선격식리산류체공제방정화고체공제방정급포착강격파재류체화고체중적전파。류고계면부근적망격절점용허의류체방법구해。문중환장수치결과화강격파작용재수—고벽계면,수—가압축고체계면득도적결과진행료대비분석급험증。수치모의결과야표명료추도적근사려만관계화허의류체방법가흔호지괄용우수—탄성고체우합문제。
This paper presents numerical simulation on water-elastic solid interaction when water-solid interface is impacted by strong shock wave. An approximate Riemann problem solver is developed based on Euler equations and fundamental elastodynamics equations for the treatment of fluid-elastic solid interface. Level set method is employed to keep track of material interface while coupling Eulerian grids of fluid and Lagrangian grids of solid. Fifth-order WENO scheme and bicharacteristic scheme are used to respectively discretize governing equation of fluid and solid to capture strong shock wave propagat-ing in water and elastic solid. Essentially Modified Ghost Fluid is employed to update grid nodes bor-dering water-elastic solid interface. Numerical results are verified and compared with the results by respectively assuming solid to be rigid wall and compressible. Numerical results also demonstrate that the approximate Riemann relationship and essentially Modified Ghost Fluid Method work robustly as applied to water-elastic solid interaction.