应用科技
應用科技
응용과기
YING YONG KE JI
2015年
1期
57-61
,共5页
有限元%水流场%网格尺寸%精度分析%Delft3D
有限元%水流場%網格呎吋%精度分析%Delft3D
유한원%수류장%망격척촌%정도분석%Delft3D
finite element%flow field%mesh size%precision analysis%Delft3D
针对有限元水流场仿真中有效地选择网格尺寸、平衡计算精度和计算成本的问题,采用在网格形状、边界激励类型、边界激励量大小等因素相同的条件下,输入不同的网格尺寸分析了仿真的精度误差的方法,建立了海南某港的Delft3D?FLOW模块水流场仿真模型。研究结果表明:仿真计算的绝对误差基本呈非线性关系,相同条件下靠近岸线的位置仿真误差大于海域中间的位置仿真误差。
針對有限元水流場倣真中有效地選擇網格呎吋、平衡計算精度和計算成本的問題,採用在網格形狀、邊界激勵類型、邊界激勵量大小等因素相同的條件下,輸入不同的網格呎吋分析瞭倣真的精度誤差的方法,建立瞭海南某港的Delft3D?FLOW模塊水流場倣真模型。研究結果錶明:倣真計算的絕對誤差基本呈非線性關繫,相同條件下靠近岸線的位置倣真誤差大于海域中間的位置倣真誤差。
침대유한원수류장방진중유효지선택망격척촌、평형계산정도화계산성본적문제,채용재망격형상、변계격려류형、변계격려량대소등인소상동적조건하,수입불동적망격척촌분석료방진적정도오차적방법,건립료해남모항적Delft3D?FLOW모괴수류장방진모형。연구결과표명:방진계산적절대오차기본정비선성관계,상동조건하고근안선적위치방진오차대우해역중간적위치방진오차。
In order to select the mesh size efficiently, and balance the calculation precision and computational ex?pense in the simulation of finite element flow field, a Delft3D?FLOW field simulation model at a port of Hainan was established. The precision error of the simulation was analyzed by inputting various mesh sizes with constant mesh shapes, types and values of boundary incentive. The analysis result shows that, the absolute simulation errors are non?linear, and the simulation error near the shoreline is greater than that in the middle of the ocean area under the same simulation conditions.
