土木建筑与环境工程
土木建築與環境工程
토목건축여배경공정
Journal of Chongqing Jianzhu University
2015年
5期
11-17
,共7页
张亮亮%吴波%杨阳%刘连杰
張亮亮%吳波%楊暘%劉連傑
장량량%오파%양양%류련걸
计算域设置%山区地形%计算流体力学%模型误差%求解效率
計算域設置%山區地形%計算流體力學%模型誤差%求解效率
계산역설치%산구지형%계산류체역학%모형오차%구해효솔
computational domain settings%mountain terrain%CFD%model error%computational efficiency
山区桥址处风场具有较强的随机性与不确定性,在选取其 CFD 计算域时,盲目参考已有的工程可能会造成较大的模型误差,或增加大量的计算开销。为解决该问题,提出了山区复杂地形CFD 计算域选取的方法与步骤,验证了其准确性。具体方法为:设置一个大范围的基准计算域进行初算,通过后处理软件绘制平均风压系数极差随高度的变化曲线、壁面附近水平面上的静压偏差等值云图以及横风向各平面静压值与对应边界面的均方根差值曲线,分别筛选出基准计算域在高度方向、顺风向及横风向上对整体风场贡献可忽略的区域,余下部分则可用于该区风场的求解。
山區橋阯處風場具有較彊的隨機性與不確定性,在選取其 CFD 計算域時,盲目參攷已有的工程可能會造成較大的模型誤差,或增加大量的計算開銷。為解決該問題,提齣瞭山區複雜地形CFD 計算域選取的方法與步驟,驗證瞭其準確性。具體方法為:設置一箇大範圍的基準計算域進行初算,通過後處理軟件繪製平均風壓繫數極差隨高度的變化麯線、壁麵附近水平麵上的靜壓偏差等值雲圖以及橫風嚮各平麵靜壓值與對應邊界麵的均方根差值麯線,分彆篩選齣基準計算域在高度方嚮、順風嚮及橫風嚮上對整體風場貢獻可忽略的區域,餘下部分則可用于該區風場的求解。
산구교지처풍장구유교강적수궤성여불학정성,재선취기 CFD 계산역시,맹목삼고이유적공정가능회조성교대적모형오차,혹증가대량적계산개소。위해결해문제,제출료산구복잡지형CFD 계산역선취적방법여보취,험증료기준학성。구체방법위:설치일개대범위적기준계산역진행초산,통과후처리연건회제평균풍압계수겁차수고도적변화곡선、벽면부근수평면상적정압편차등치운도이급횡풍향각평면정압치여대응변계면적균방근차치곡선,분별사선출기준계산역재고도방향、순풍향급횡풍향상대정체풍장공헌가홀략적구역,여하부분칙가용우해구풍장적구해。
The wind field of a mountain bridge site always shows a strong randomness and uncertainty.As a result,setting up its computational domain in CFD simulation by a simply reference to the existing experience causes a large amount of model errors and huge additional computational overhead.To solve this problem,a method to the selection of CFD computational domain of complex terrains is explored and verified.To start the procedure,a large reference computational domain should be chosen and preliminary solved.Then,its solution should be post-processed to draw the following curves or contour images:range of mean pressure coefficient align with height,static pressure deviation contour of the horizontal plane near the top of the bottom surface,the root-mean-square error of the static pressure of the crosswind planes compared to the corresponding edge surface.According to these curves and contour images,areas parts which have slight contribution on the overall wind field are figured out and abandoned,and the selected computational domain is constitutive of the rest parts of the reference domain.
