/*--------------------------------*- C++ -*----------------------------------*\
| =========                 |                                                 |
| \\      /  F ield         | OpenFOAM: The Open Source CFD Toolbox           |
|  \\    /   O peration     | Version:  2212                                  |
|   \\  /    A nd           | Website:  www.openfoam.com                      |
|    \\/     M anipulation  |                                                 |
\*---------------------------------------------------------------------------*/
FoamFile
{
    version     2.0;
    format      ascii;
    arch        "LSB;label=32;scalar=64";
    class       dictionary;
    location    "10000/uniform/functionObjects";
    object      functionObjectProperties;
}
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //

cdf7e925f5746741c316f5fbcf39ad0dfca90775
{
    inlet
    {
        vector
        {
            areaAverage(inlet,U) ( 0.5 0 0 );
        }
        scalar
        {
            areaAverage(inlet,p) 3.142201990149658;
        }
    }
    outlet
    {
        vector
        {
            areaAverage(outlet,U) ( 0.499253 -0.0645471 1.86029e-21 );
        }
        scalar
        {
            areaAverage(outlet,p) 0;
        }
    }
    P_0
    {
        scalar
        {
            areaAverage(Mean,p) 3.142201990134669;
            areaAverage(Mean,static(p)) 3142.20199013467;
            areaAverage(Mean,total(p)) 3261.942725876389;
        }
    }
    P_0.005
    {
        scalar
        {
            areaAverage(Mean,p) 1.856727247052207;
            areaAverage(Mean,static(p)) 1856.727247052206;
            areaAverage(Mean,total(p)) 2072.810935698327;
        }
    }
    P_0.010
    {
        scalar
        {
            areaAverage(Mean,p) 0.8994142867913613;
            areaAverage(Mean,static(p)) 899.4142867913613;
            areaAverage(Mean,total(p)) 1116.204310776378;
        }
    }
    P_0.015
    {
        scalar
        {
            areaAverage(Mean,p) 0.001431299048534464;
            areaAverage(Mean,static(p)) 1.431299048534468;
            areaAverage(Mean,total(p)) 197.5067905305574;
        }
    }
    l_0
    {
        scalar
        {
            average(data,nu) 9.999999999999995e-07;
            min(data,nu)    1e-06;
            max(data,nu)    1e-06;
            average(nu)     9.999999999999995e-07;
            min(nu)         1e-06;
            max(nu)         1e-06;
        }
        label
        {
            size(data,nu)   39;
            size(nu)        39;
            size(data,U)    39;
            size(U)         39;
        }
        vector
        {
            average(data,U) ( 0.382711 0.07856630000000001 1.05607e-21 );
            min(data,U)     ( 0 0 -4.93314e-18 );
            max(data,U)     ( 0.506757 0.416061 7.373649999999999e-18 );
            average(U)      ( 0.382711 0.07856630000000001 1.05607e-21 );
            min(U)          ( 0 0 -4.93314e-18 );
            max(U)          ( 0.506757 0.416061 7.373649999999999e-18 );
        }
    }
    l_0.0075
    {
        scalar
        {
            average(data,nu) 9.999999999999995e-07;
            min(data,nu)    1e-06;
            max(data,nu)    1e-06;
            average(nu)     9.999999999999995e-07;
            min(nu)         1e-06;
            max(nu)         1e-06;
        }
        label
        {
            size(data,nu)   41;
            size(nu)        41;
            size(data,U)    41;
            size(U)         41;
        }
        vector
        {
            average(data,U) ( 0.304519 -0.0214004 9.161219999999999e-21 );
            min(data,U)     ( -0.0187577 -0.0800622 -2.36571e-18 );
            max(data,U)     ( 1.03943 0.0144943 2.53604e-18 );
            average(U)      ( 0.304519 -0.0214004 9.161219999999999e-21 );
            min(U)          ( -0.0187577 -0.0800622 -2.36571e-18 );
            max(U)          ( 1.03943 0.0144943 2.53604e-18 );
        }
    }
    l_0.015
    {
        scalar
        {
            average(data,nu) 9.999999999999995e-07;
            min(data,nu)    1e-06;
            max(data,nu)    1e-06;
            average(nu)     9.999999999999995e-07;
            min(nu)         1e-06;
            max(nu)         1e-06;
        }
        label
        {
            size(data,nu)   39;
            size(nu)        39;
            size(data,U)    39;
            size(U)         39;
        }
        vector
        {
            average(data,U) ( 0.321222 -0.0342688 1.53143e-22 );
            min(data,U)     ( -0.0254557 -0.143324 -4.922e-20 );
            max(data,U)     ( 0.984453 0.0681049 6.240650000000001e-20 );
            average(U)      ( 0.321222 -0.0342688 1.53143e-22 );
            min(U)          ( -0.0254557 -0.143324 -4.922e-20 );
            max(U)          ( 0.984453 0.0681049 6.240650000000001e-20 );
        }
    }
}

l_0
{
    nu
    {
        file            "<case>/postProcessing/l_0/10000/data_nu_U.csv";
    }
    U
    {
        file            "<case>/postProcessing/l_0/10000/data_nu_U.csv";
    }
}

l_0.0075
{
    nu
    {
        file            "<case>/postProcessing/l_0.0075/10000/data_nu_U.csv";
    }
    U
    {
        file            "<case>/postProcessing/l_0.0075/10000/data_nu_U.csv";
    }
}

l_0.015
{
    nu
    {
        file            "<case>/postProcessing/l_0.015/10000/data_nu_U.csv";
    }
    U
    {
        file            "<case>/postProcessing/l_0.015/10000/data_nu_U.csv";
    }
}


// ************************************************************************* //
