哈尔滨工程大学学报
哈爾濱工程大學學報
합이빈공정대학학보
JOURNAL OF HARBIN ENGINEERING UNIVERSITY
2013年
11期
1385-1390
,共6页
BFC-VOF算法%SIMPLE算法%弧形胸墙%波浪力
BFC-VOF算法%SIMPLE算法%弧形胸牆%波浪力
BFC-VOF산법%SIMPLE산법%호형흉장%파랑력
BFC-VOF method%SIMPLE algorithm%arc crown wall%wave force
针对笛卡尔坐标系下的VOF(volume of fluid)方法无法精确模拟复杂边界的自由表面流动问题,以连续方程和雷诺平均方程为基本控制方程,采用k-ε湍流模型来封闭方程组,修正了基于交错网格的贴体坐标系下的SIMPLE算法来迭代求解压力-速度场,修正了贴体坐标系下的界面跟踪方法,建立了基于BFC-VOF方法求解波浪对弧形胸墙结构作用的数值计算模型。对弧形胸墙结构附近的波面、流场及其所受波浪力等进行了数值模拟。研究结果表明:贴体网格模型能够精确模拟复杂边界的自由表面流动问题,模型计算的弧形胸墙迎浪面所受到的波浪力随着圆弧半径的增大而减小。
針對笛卡爾坐標繫下的VOF(volume of fluid)方法無法精確模擬複雜邊界的自由錶麵流動問題,以連續方程和雷諾平均方程為基本控製方程,採用k-ε湍流模型來封閉方程組,脩正瞭基于交錯網格的貼體坐標繫下的SIMPLE算法來迭代求解壓力-速度場,脩正瞭貼體坐標繫下的界麵跟蹤方法,建立瞭基于BFC-VOF方法求解波浪對弧形胸牆結構作用的數值計算模型。對弧形胸牆結構附近的波麵、流場及其所受波浪力等進行瞭數值模擬。研究結果錶明:貼體網格模型能夠精確模擬複雜邊界的自由錶麵流動問題,模型計算的弧形胸牆迎浪麵所受到的波浪力隨著圓弧半徑的增大而減小。
침대적잡이좌표계하적VOF(volume of fluid)방법무법정학모의복잡변계적자유표면류동문제,이련속방정화뢰낙평균방정위기본공제방정,채용k-ε단류모형래봉폐방정조,수정료기우교착망격적첩체좌표계하적SIMPLE산법래질대구해압력-속도장,수정료첩체좌표계하적계면근종방법,건립료기우BFC-VOF방법구해파랑대호형흉장결구작용적수치계산모형。대호형흉장결구부근적파면、류장급기소수파랑력등진행료수치모의。연구결과표명:첩체망격모형능구정학모의복잡변계적자유표면류동문제,모형계산적호형흉장영랑면소수도적파랑력수착원호반경적증대이감소。
In order to solve the problems that viscous flows with free surfaces and complicated boundary shapes can-not be simulated accurately by using the volume of fluid (VOF) method in the Cartesian system, the BFC-VOF method was proposed to solve the interaction between waves and the arc crown wall. In the body-fitted coordinate (BFC) system, the governing equations contain the continuity equation and Reynolds equations. The two equations model was used to close the equations. The transformed SIMPLE algorithm in the BFC system based on the stag-gered grid was proposed to correct the pressure-velocity field by using the iteration method. The transformed VOF method was used to trace the free surface in the BFC system. The results around the arc crown wall computed by the BFC model were shown, for example, water surface, local velocity fields, wave force, etc. The results prove that the problems of viscous flows with free surfaces and complicated boundary shapes can be solved accurately by the BFC model. The wave force on the arc crown wall computed by the BFC model gets smaller with the increase of the arc radius of the arc crown wall.