/// <summary>
/// 能量关;湍流关;边界条件设置
/// 调用该方法时采用 命名参数调用
/// 例如: void func(int x, int y=2) { Console.WrinteLine(x+y);} func(y:3,x:2;
/// 因为该方法的参数都要默认值,每次调用只有一个参数参与计算,因此只需给一个指定的参数传值即可
/// </summary>
/// <param name="vi">速度入口参数</param>
/// <param name="pi">压力入口参数</param>
/// <param name="mi">质量流入口参数</param>
/// <param name="po">压力出口参数</param>
/// <param name="mo">质量流出口参数</param>
/// <returns>TUI命令</returns>
public string Set_OFFOFF(BCP_OFFOFF.VI vi = null, BCP_OFFOFF.PI pi = null, BCP_OFFOFF.MI mi = null, BCP_OFFOFF.PO po = null, BCP_OFFOFF.MO mo = null)
{
string TUI = null;
BoundaryConditionImp BC = new BoundaryConditionImp();
IEnOFF_ViscousOFF iBCSet = BC;
if (vi != null)
{
TUI = iBCSet.VI(vi.boundaryName, vi.velocityMethod, vi.referenceFrame, vi.velocityMagnitude, vi.gaugePressure, vi.xyzDirctionOrComponent);
}
else if (pi != null)
{
TUI = iBCSet.PI(pi.boundaryName, pi.referenceFrame, pi.directionMethond, pi.guageTotalPressure, pi.guageInitialPressure, pi.xyzDirection);
}
else if (mi != null)
{
TUI = iBCSet.MI(mi.boundaryName, mi.referenceFrame, mi.massFlowMethond, mi.dirctionMethond, mi.massFlowRateOrFlux, mi.initialGaugePress, mi.averageFlux, mi.xyzDirection);
}
else if (po != null)
{
TUI = iBCSet.PO(po.boundaryName, po.referenceFrame, po.bfDirectionM, po.bfPressure, po.gaugePressure, po.isCheck, po.xyzDirection, po.massFlowParameter);
}
else if (mo != null)
{
TUI = iBCSet.MO(mo.boundaryName, mo.massFlowMethond, mo.directionMethod, mo.massRateOrFlux, mo.averageMassFlux, mo.xyzDirection);
}
return(TUI);
}
/// <summary>
/// 质量出口
/// </summary>
/// <param name="boundaryName">边界名</param>
/// <param name="massFlowMethond">指定质量流方法</param>
/// <param name="directionMethod">指定方向方法</param>
/// <param name="massRateOrFlux">质量流率或者质量流通量(根据massFlowMethond参数值确定)</param>
/// <param name="averageMassFlux">[平均质量流通量]massFlowMethond为MassFluxWithAverageMassFlux时 指定</param>
/// <param name="xyzDirection">[方向分量] directionMethod为DirectionVector时指定</param>
/// <returns>TUI命令</returns>
string IEnON_ViscousON_RadiationOFF_SpeciesON.MO(string boundaryName, MassFlowMethond massFlowMethond, MO_DirectionMethod directionMethod, string massRateOrFlux, string averageMassFlux, float[] xyzDirection)
{
StringBuilder sb = new StringBuilder();
BoundaryConditionImp BC = new BoundaryConditionImp();
IEnOFF_ViscousOFF iEnOFF_ViscousOFF = BC;
//动量TUI
string TUI = iEnOFF_ViscousOFF.MO(boundaryName, massFlowMethond, directionMethod, massRateOrFlux, averageMassFlux, xyzDirection);
sb.Append(TUI);
return(sb.ToString());
}
/// <summary>
/// 质量出口
/// </summary>
/// <param name="boundaryName">边界名</param>
/// <param name="massFlowMethond">指定质量流方法</param>
/// <param name="directionMethod">指定方向方法</param>
/// <param name="massRateOrFlux">质量流率或者质量流通量(根据massFlowMethond参数值确定)</param>
/// <param name="averageMassFlux">[平均质量流通量]massFlowMethond为MassFluxWithAverageMassFlux时 指定</param>
/// <param name="xyzDirection">[方向分量] directionMethod为DirectionVector时指定</param>
/// <returns>TUI命令</returns>
string IEnOFF_ViscousON.MO(string boundaryName, MassFlowMethond massFlowMethond, MO_DirectionMethod directionMethod, string massRateOrFlux, string averageMassFlux, float[] xyzDirection)
{
//质量出口没有湍流项,因此和湍流没有打开的代码一样,直接调用即可。
StringBuilder sb = new StringBuilder();
BoundaryConditionImp BC = new BoundaryConditionImp();
IEnOFF_ViscousOFF iEnOFF_ViscousOFF = BC;
//动量TUI
string TUI = iEnOFF_ViscousOFF.MO(boundaryName, massFlowMethond, directionMethod, massRateOrFlux, averageMassFlux, xyzDirection);
sb.Append(TUI);
return(sb.ToString());
}