GasFlowMeter/User/NG/FlowCal.c

//
// Created by ldeyu on 2025/7/7.
//
#include "NGCal.h"
#include "FlowCal.h"

void OFlowCal(FlowParSTRUCT *ptFlowPar, NGParSTRUCT *ptNGPar) {

    double tempPatm = ptFlowPar->dPatm * 1000000;

    double tempPf = ptFlowPar->dPf * 1000000;


    double tempDP = ptFlowPar->dDp * 1000;

    double tempTf = ptFlowPar->dTf + 273.15;

    if (ptFlowPar->dPfType == 0)
    {
        ptFlowPar->dPf = tempPatm + tempPf;
        ptNGPar->dPf = tempPatm + tempPf;
    } else {
        ptFlowPar->dPf = tempPf;
        ptNGPar->dPf = tempPf;
    }

    ptFlowPar->dDp = tempDP;
    ptFlowPar->dTf = tempTf;
    ptNGPar->dTf = tempTf;
    ptNGPar->dCbtj = ptFlowPar->dCbtj;

    switch (ptNGPar->dCbtj) {
        case 2:
            ptNGPar->dPb = 101325;
            ptNGPar->dTb = 273.15;
            ptFlowPar->dPb_M = (101325);
            ptFlowPar->dTb_M = (273.15);
            break;
        case 1:

            ptNGPar->dPb = (101325);
            ptNGPar->dTb = (288.15);
            ptFlowPar->dPb_M = (101325);
            ptFlowPar->dTb_M = (288.15);
            break;
        case 0:

            ptNGPar->dPb = (101325);
            ptNGPar->dTb = (293.15);
            ptFlowPar->dPb_M = (101325);
            ptFlowPar->dTb_M = (293.15);
            break;
    }

    double ngArray[NUMBEROFCOMPONENTS];

    for (int i = 0; i < NUMBEROFCOMPONENTS; i++) {
        ngArray[i] = ptFlowPar->dNG_Compents[i] / 100;
        ptNGPar->adMixture[i] = ngArray[i];
    }
    Crit(ptNGPar, 0);


    ptFlowPar->dFpv = ptNGPar->dFpv;


    ptFlowPar->dOrificeD = ptFlowPar->dOrificeD * (
                               1 + 0.000001 * CaiLiaoPzxs(ptFlowPar->dOrificeMaterial) * (ptFlowPar->dTf - 293.15));
    ptFlowPar->dPipeD = ptFlowPar->dPipeD * (1 + 0.000001 * CaiLiaoPzxs(ptFlowPar->dPipeMaterial) * (
                                                 ptFlowPar->dTf - 293.15));
    ptFlowPar->dBeta = ptFlowPar->dOrificeD / ptFlowPar->dPipeD;

    ptFlowPar->dE = calculateE(ptFlowPar->dBeta);
    ptFlowPar->dFG = calculateFG(ptNGPar->dRD_Real);
    ptFlowPar->dFT = calculateFT(ptFlowPar->dTb_M, ptFlowPar->dTf);

    ptFlowPar->dKappa = calculateKappa(ptNGPar->dZf);
    ptFlowPar->dDViscosity = Dlndjs(ptFlowPar->dPf / 1e6, ptFlowPar->dTf);
    ptFlowPar->dDExpCoefficient = calculateEpsilon(ptFlowPar->dPf, ptFlowPar->dDp,
                                                   ptFlowPar->dBeta, ptFlowPar->dKappa);

    double D = ptFlowPar->dPipeD / 1000.0;
    double d = ptFlowPar->dOrificeD / 1000.0;
    double beta = ptFlowPar->dBeta;
    double P1 = ptFlowPar->dPf;
    double deltaP = ptFlowPar->dDp;
    double Tf = ptFlowPar->dTf;


    double C_initial = 0.6;
    double Qf_initial = (C_initial * ptFlowPar->dE * ptFlowPar->dDExpCoefficient * M_PI * pow(d, 2) / 4)
                        * sqrt(2 * deltaP / (ptNGPar->dRhof * (1 - pow(beta, 4))));
    ptFlowPar->dVFlowf = Qf_initial;


    double tolerance = 1e-6;
    int maxIter = 100;
    double currentC = C_initial;
    double currentReD = calculateReD(Qf_initial, D, ptNGPar->dRhof, ptFlowPar->dDViscosity);
    int iter = 0;
    double prevC = 0;


    do {
        prevC = currentC;


        currentC = calculateCd(beta, currentReD, ptFlowPar->dPipeD, ptFlowPar->dPtmode);


        double Qf = (currentC * ptFlowPar->dDExpCoefficient * M_PI * pow(d, 2) / 4)
                    * sqrt(2 * deltaP / (ptNGPar->dRhof * (1 - pow(beta, 4))));
        ptFlowPar->dVFlowf = Qf;


        currentReD = calculateReD(Qf, D, ptNGPar->dRhof, ptFlowPar->dDViscosity);

        iter++;
        if (iter > maxIter) {
            fprintf(stderr, "<EFBFBD><EFBFBD><EFBFBD><EFBFBD>δ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>\n");
        }
    } while (fabs(currentC - prevC) / currentC > tolerance);


    double K = calculateK(ptFlowPar->dPipeType);
    double G_me = calculateRoughnessFactor(ptFlowPar->dPipeD, K, currentC);
    double C_corrected = currentC * G_me;

    ptFlowPar->dCd = C_corrected;
    ptFlowPar->dRoughNessPipe = G_me;
    ptFlowPar->dRnPipe = currentReD;


    double Qn = ptFlowPar->dVFlowf * (ptFlowPar->dFpv * ptFlowPar->dFpv * P1 / ptFlowPar->dPb_M)
                * (ptFlowPar->dTb_M) / Tf;
    ptFlowPar->dVFlowb = Qn;


    ptFlowPar->dMFlowb = ptFlowPar->dVFlowb * ptNGPar->dRhob;

    ptFlowPar->dEFlowb = ptFlowPar->dVFlowb * ptNGPar->dHhvMol;

    ptFlowPar->dVelocityFlow = ptFlowPar->dVFlowf / (M_PI * pow((ptFlowPar->dPipeD / 2000), 2));
}


double CaiLiaoPzxs(int tempCaiLiao) {
    double CaiLiaoPzxs = 0;
    switch (tempCaiLiao) {
        case 0:
            CaiLiaoPzxs = 11.75;
            break;

        case 1:
            CaiLiaoPzxs = 11.6;
            break;

        case 2:
            CaiLiaoPzxs = 11.16;
            break;

        case 3:
            CaiLiaoPzxs = 11.59;
            break;

        case 4:
            CaiLiaoPzxs = 10.5;
            break;

        case 5:
            CaiLiaoPzxs = 10.0;
            break;

        case 6:
            CaiLiaoPzxs = 10.2;
            break;

        case 7:
            CaiLiaoPzxs = 15.5;
            break;

        case 8:
            CaiLiaoPzxs = 11.5;
            break;

        case 9:
            CaiLiaoPzxs = 10.8;
            break;

        case 10:
            CaiLiaoPzxs = 16.6;
            break;

        case 11:
            CaiLiaoPzxs = 11.4;
            break;

        case 12:
            CaiLiaoPzxs = 16.55;
            break;

        case 13:
            CaiLiaoPzxs = 17.8;
            break;

        case 14:
            CaiLiaoPzxs = 17.2;
            break;
    }
    return CaiLiaoPzxs;
}


double calculateK(int dPipeType) {
    double Jdccd;
    switch (dPipeType) {
        case 0:
            Jdccd = 0.029;
            break;
        case 1:
        case 2:
        case 3:
            Jdccd = 0.075;
            break;
        case 4:
            Jdccd = 0.1;
            break;
        case 5:
            Jdccd = 0.15;
            break;
        case 6:
            Jdccd = 1;
            break;
        case 7:
            Jdccd = 2.1;
            break;
        case 8:
            Jdccd = 0.04;
            break;
        case 9:
            Jdccd = 0.15;
            break;
        case 10:
            Jdccd = 0.13;
            break;
        case 11:
            Jdccd = 0.25;
            break;
        default:

            fprintf(stderr, "δ֪<EFBFBD>Ĺܵ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>: %d\n", dPipeType);
            return FLOW_CALC_ERROR;
    }
    return Jdccd;
}


double calculateRoughnessFactor(double D_pipe, double K, double C) {

    double K_over_D = K / D_pipe;


    if (K_over_D <= 0.0004) {
        return 1.0000;
    }


    double term = (K_over_D * 1e6) - 400;
    if (term < 0) {
        fprintf(stderr, "K/D <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ʽ<EFBFBD><CABD><EFBFBD>÷<EFBFBD>Χ\n");
        return FLOW_CALC_ERROR;
    }

    double G_me = 1 + (0.011 / C) * sqrt(term);
    return G_me;
}


double calculateE(double beta) {
    return 1 / sqrt(1 - pow(beta, 4));
}


double calculateFG(double dRD_Real) {
    return 1 / sqrt(dRD_Real);
}


double calculateFT(double dTb_M, double dTf) {
    return sqrt(dTb_M / dTf);
}


double calculateEpsilon(double dPf, double dDp, double beta, double dKappa) {
    double tau = (dPf - dDp) / dPf;
    double epsilon = 1 - (0.351 + 0.256 * pow(beta, 4) + 0.93 * pow(beta, 8)) * (1 - pow(tau, 1 / dKappa));
    return epsilon;
}


double calculateKappa(double dZf) {

    double gamma = 1.3;
    double Z = dZf;


    double kappa = gamma / (1 - (gamma - 1) * (1 / Z - 1));
    return kappa;
}


double calculateReD(double Qf, double D, double rho, double mu) {
    return (4 * Qf * rho) / (M_PI * D * mu);
}


double calculateCd(double beta, double ReD, double D_mm, int ptMode) {
    double L1, L2;

    switch (ptMode) {
        case 1:
            L1 = L2 = 0;
            break;
        case 0:
            L1 = L2 = 25.4 / D_mm;
            break;
        case 2:
            L1 = 1.0;
            L2 = 0.47;
            break;
        default:
            fprintf(stderr, "<EFBFBD><EFBFBD>֧<EFBFBD>ֵ<EFBFBD>ȡѹ<EFBFBD><EFBFBD>ʽ: %d\n", ptMode);
            return FLOW_CALC_ERROR;
    }

    double term1 = 0.5961 + 0.0261 * pow(beta, 2) - 0.216 * pow(beta, 8);
    double term2 = 0.000521 * pow(1e6 * beta / ReD, 0.7);
    double A = pow(19000 * beta / ReD, 0.8);
    double term3 = (0.0188 + 0.0063 * A) * pow(beta, 3.5) * pow(1e6 / ReD, 0.3);
    double term4 = (0.043 + 0.08 * exp(-10 * L1) - 0.123 * exp(-7 * L1))
                   * (1 - 0.11 * A) * pow(beta, 4) / (1 - pow(beta, 4));
    double term5 = -0.031 * (2 * L2 / (1 - beta) - 0.8 * pow(2 * L2 / (1 - beta), 1.1))
                   * pow(beta, 1.3);

    double Cd = term1 + term2 + term3 + term4 + term5;


    if (D_mm < 71.12) {
        Cd += 0.011 * (0.75 - beta) * (2.8 - D_mm / 25.4);
    }
    return Cd;
}


double Dlndjs(double tempP_jy, double tempT) {
    double Dlndjs_Dlnd_Data[8][11] = {
        {976, 991, 1014, 1044, 1073, 1114, 1156, 1207, 1261, 1331, 1405},
        {1027, 1040, 1063, 1091, 1118, 1151, 1185, 1230, 1276, 1331, 1389},
        {1071, 1082, 1106, 1127, 1149, 1180, 1211, 1250, 1289, 1335, 1383},
        {1123, 1135, 1153, 1174, 1195, 1224, 1253, 1289, 1324, 1366, 1409},
        {1167, 1178, 1196, 1216, 1236, 1261, 1287, 1318, 1350, 1385, 1421},
        {1213, 1224, 1239, 1257, 1275, 1297, 1320, 1346, 1373, 1403, 1435},
        {1260, 1270, 1281, 1297, 1313, 1333, 1352, 1374, 1396, 1424, 1451},
        {1303, 1312, 1323, 1338, 1352, 1372, 1391, 1412, 1432, 1456, 1482}
    };

    double Dlndjs_Dlnd_T[8] = {
        -15 + 273.15, 0 + 273.15, 15 + 273.15, 30 + 273.15,
        45 + 273.15, 60 + 273.15, 75 + 273.15, 90 + 273.15
    };

    double Dlndjs_Dlnd_P[11] = {0.1, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10};

    double s1, s2, ky, kx;
    int i, m = 0, n = 0;

    if (tempT < Dlndjs_Dlnd_T[0]) {
        tempT = Dlndjs_Dlnd_T[0];
    }
    if (tempT > Dlndjs_Dlnd_T[7]) {
        tempT = Dlndjs_Dlnd_T[7];
    }
    if (tempP_jy < Dlndjs_Dlnd_P[0]) {
        tempP_jy = Dlndjs_Dlnd_P[0];
    }
    if (tempP_jy > Dlndjs_Dlnd_P[10]) {
        tempP_jy = Dlndjs_Dlnd_P[10];
    }

    for (i = 0; i <= 6; i++) {
        if (tempT >= Dlndjs_Dlnd_T[i] && tempT <= Dlndjs_Dlnd_T[i + 1]) {
            m = i;
            break;
        }
    }

    for (i = 0; i <= 9; i++) {
        if (tempP_jy >= Dlndjs_Dlnd_P[i] && tempP_jy <= Dlndjs_Dlnd_P[i + 1]) {
            n = i;
            break;
        }
    }

    if (Dlndjs_Dlnd_P[n + 1] - Dlndjs_Dlnd_P[n] != 0) {
        ky = (tempP_jy - Dlndjs_Dlnd_P[n]) / (Dlndjs_Dlnd_P[n + 1] - Dlndjs_Dlnd_P[n]);
    } else {
        ky = 0;
    }

    if (Dlndjs_Dlnd_T[m + 1] - Dlndjs_Dlnd_T[m] != 0) {
        kx = (tempT - Dlndjs_Dlnd_T[m]) / (Dlndjs_Dlnd_T[m + 1] - Dlndjs_Dlnd_T[m]);
    } else {
        kx = 0;
    }

    s1 = Dlndjs_Dlnd_Data[m][n] + (Dlndjs_Dlnd_Data[m][n + 1] - Dlndjs_Dlnd_Data[m][n]) * ky;
    s2 = Dlndjs_Dlnd_Data[m + 1][n] + (Dlndjs_Dlnd_Data[m + 1][n + 1] - Dlndjs_Dlnd_Data[m + 1][n]) * ky;
    return (s1 + (s2 - s1) * kx) / 100000.0;
}
-												声速计算功能验证正确，孔板计算还未验证。

											
										
										
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+								//
 								// Created by ldeyu on 2025/7/7.
 								//
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								#include "NGCal.h"
 								#include "FlowCal.h"
 								void OFlowCal(FlowParSTRUCT *ptFlowPar, NGParSTRUCT *ptNGPar) {
-												修改错误

											
										
										
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-												调试计算通过，正确性需要验证

											
										
										
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+								    double tempPatm = ptFlowPar->dPatm * 1000000;
-												修改错误

											
										
										
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-												调试计算通过，正确性需要验证

											
										
										
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+								    double tempPf = ptFlowPar->dPf * 1000000;
-												修改错误

											
										
										
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-												调试计算通过，正确性需要验证

											
										
										
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+								    double tempDP = ptFlowPar->dDp * 1000;
-												修改错误

											
										
										
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-												调试计算通过，正确性需要验证

											
										
										
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+								    double tempTf = ptFlowPar->dTf + 273.15;
-												修改错误

											
										
										
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+								    if (ptFlowPar->dPfType == 0)
-												调试计算通过，正确性需要验证

											
										
										
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+								    {
 								        ptFlowPar->dPf = tempPatm + tempPf;
 								        ptNGPar->dPf = tempPatm + tempPf;
 								    } else {
 								        ptFlowPar->dPf = tempPf;
 								        ptNGPar->dPf = tempPf;
 								    }
 								    ptFlowPar->dDp = tempDP;
 								    ptFlowPar->dTf = tempTf;
 								    ptNGPar->dTf = tempTf;
 								    ptNGPar->dCbtj = ptFlowPar->dCbtj;
 								    switch (ptNGPar->dCbtj) {
 								        case 2:
 								            ptNGPar->dPb = 101325;
 								            ptNGPar->dTb = 273.15;
 								            ptFlowPar->dPb_M = (101325);
 								            ptFlowPar->dTb_M = (273.15);
 								            break;
 								        case 1:
 								            ptNGPar->dPb = (101325);
 								            ptNGPar->dTb = (288.15);
 								            ptFlowPar->dPb_M = (101325);
 								            ptFlowPar->dTb_M = (288.15);
 								            break;
 								        case 0:
 								            ptNGPar->dPb = (101325);
 								            ptNGPar->dTb = (293.15);
 								            ptFlowPar->dPb_M = (101325);
 								            ptFlowPar->dTb_M = (293.15);
 								            break;
 								    }
 								    double ngArray[NUMBEROFCOMPONENTS];
 								    for (int i = 0; i < NUMBEROFCOMPONENTS; i++) {
 								        ngArray[i] = ptFlowPar->dNG_Compents[i] / 100;
 								        ptNGPar->adMixture[i] = ngArray[i];
 								    }
-												修改错误

											
										
										
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+								    Crit(ptNGPar, 0);
-												调试计算通过，正确性需要验证

											
										
										
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 								    ptFlowPar->dFpv = ptNGPar->dFpv;
-												修改错误

											
										
										
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-												调试计算通过，正确性需要验证

											
										
										
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 								    ptFlowPar->dOrificeD = ptFlowPar->dOrificeD * (
 + 0.000001 * CaiLiaoPzxs(ptFlowPar->dOrificeMaterial) * (ptFlowPar->dTf - 293.15));
 								    ptFlowPar->dPipeD = ptFlowPar->dPipeD * (1 + 0.000001 * CaiLiaoPzxs(ptFlowPar->dPipeMaterial) * (
 								                                                 ptFlowPar->dTf - 293.15));
 								    ptFlowPar->dBeta = ptFlowPar->dOrificeD / ptFlowPar->dPipeD;
 								    ptFlowPar->dE = calculateE(ptFlowPar->dBeta);
 								    ptFlowPar->dFG = calculateFG(ptNGPar->dRD_Real);
 								    ptFlowPar->dFT = calculateFT(ptFlowPar->dTb_M, ptFlowPar->dTf);
 								    ptFlowPar->dKappa = calculateKappa(ptNGPar->dZf);
 								    ptFlowPar->dDViscosity = Dlndjs(ptFlowPar->dPf / 1e6, ptFlowPar->dTf);
 								    ptFlowPar->dDExpCoefficient = calculateEpsilon(ptFlowPar->dPf, ptFlowPar->dDp,
 								                                                   ptFlowPar->dBeta, ptFlowPar->dKappa);
-												修改错误

											
										
										
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+								    double D = ptFlowPar->dPipeD / 1000.0;
 								    double d = ptFlowPar->dOrificeD / 1000.0;
-												调试计算通过，正确性需要验证

											
										
										
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+								    double beta = ptFlowPar->dBeta;
-												修改错误

											
										
										
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+								    double P1 = ptFlowPar->dPf;
 								    double deltaP = ptFlowPar->dDp;
-												调试计算通过，正确性需要验证

											
										
										
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+								    double Tf = ptFlowPar->dTf;
-												修改错误

											
										
										
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-												调试计算通过，正确性需要验证

											
										
										
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+								    double C_initial = 0.6;
 								    double Qf_initial = (C_initial * ptFlowPar->dE * ptFlowPar->dDExpCoefficient * M_PI * pow(d, 2) / 4)
 								                        * sqrt(2 * deltaP / (ptNGPar->dRhof * (1 - pow(beta, 4))));
-												修改错误

											
										
										
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+								    ptFlowPar->dVFlowf = Qf_initial;
-												调试计算通过，正确性需要验证

											
										
										
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 								    double tolerance = 1e-6;
 								    int maxIter = 100;
 								    double currentC = C_initial;
 								    double currentReD = calculateReD(Qf_initial, D, ptNGPar->dRhof, ptFlowPar->dDViscosity);
 								    int iter = 0;
 								    double prevC = 0;
-												修改错误

											
										
										
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-												调试计算通过，正确性需要验证

											
										
										
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+								    do {
 								        prevC = currentC;
-												修改错误

											
										
										
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-												调试计算通过，正确性需要验证

											
										
										
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+								        currentC = calculateCd(beta, currentReD, ptFlowPar->dPipeD, ptFlowPar->dPtmode);
-												修改错误

											
										
										
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-												调试计算通过，正确性需要验证

											
										
										
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+								        double Qf = (currentC * ptFlowPar->dDExpCoefficient * M_PI * pow(d, 2) / 4)
 								                    * sqrt(2 * deltaP / (ptNGPar->dRhof * (1 - pow(beta, 4))));
 								        ptFlowPar->dVFlowf = Qf;
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
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+								        currentReD = calculateReD(Qf, D, ptNGPar->dRhof, ptFlowPar->dDViscosity);
 								        iter++;
 								        if (iter > maxIter) {
-												声速计算功能验证正确，孔板计算还未验证。

											
										
										
											2025-07-07 15:45:13 +00:00
+								            fprintf(stderr, "<EFBFBD><EFBFBD><EFBFBD><EFBFBD>δ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>\n");
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								        }
 								    } while (fabs(currentC - prevC) / currentC > tolerance);
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
 								    double K = calculateK(ptFlowPar->dPipeType);
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								    double G_me = calculateRoughnessFactor(ptFlowPar->dPipeD, K, currentC);
 								    double C_corrected = currentC * G_me;
 								    ptFlowPar->dCd = C_corrected;
 								    ptFlowPar->dRoughNessPipe = G_me;
 								    ptFlowPar->dRnPipe = currentReD;
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								    double Qn = ptFlowPar->dVFlowf * (ptFlowPar->dFpv * ptFlowPar->dFpv * P1 / ptFlowPar->dPb_M)
 								                * (ptFlowPar->dTb_M) / Tf;
 								    ptFlowPar->dVFlowb = Qn;
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								    ptFlowPar->dMFlowb = ptFlowPar->dVFlowb * ptNGPar->dRhob;
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								    ptFlowPar->dEFlowb = ptFlowPar->dVFlowb * ptNGPar->dHhvMol;
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								    ptFlowPar->dVelocityFlow = ptFlowPar->dVFlowf / (M_PI * pow((ptFlowPar->dPipeD / 2000), 2));
 								}
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								double CaiLiaoPzxs(int tempCaiLiao) {
 								    double CaiLiaoPzxs = 0;
 								    switch (tempCaiLiao) {
 								        case 0:
 								            CaiLiaoPzxs = 11.75;
 								            break;
 								        case 1:
 								            CaiLiaoPzxs = 11.6;
 								            break;
 								        case 2:
 								            CaiLiaoPzxs = 11.16;
 								            break;
 								        case 3:
 								            CaiLiaoPzxs = 11.59;
 								            break;
 								        case 4:
 								            CaiLiaoPzxs = 10.5;
 								            break;
 								        case 5:
 								            CaiLiaoPzxs = 10.0;
 								            break;
 								        case 6:
 								            CaiLiaoPzxs = 10.2;
 								            break;
 								        case 7:
 								            CaiLiaoPzxs = 15.5;
 								            break;
 								        case 8:
 								            CaiLiaoPzxs = 11.5;
 								            break;
 								        case 9:
 								            CaiLiaoPzxs = 10.8;
 								            break;
 								        case 10:
 								            CaiLiaoPzxs = 16.6;
 								            break;
 								        case 11:
 								            CaiLiaoPzxs = 11.4;
 								            break;
 								        case 12:
 								            CaiLiaoPzxs = 16.55;
 								            break;
 								        case 13:
 								            CaiLiaoPzxs = 17.8;
 								            break;
 								        case 14:
 								            CaiLiaoPzxs = 17.2;
 								            break;
 								    }
 								    return CaiLiaoPzxs;
 								}
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								double calculateK(int dPipeType) {
 								    double Jdccd;
 								    switch (dPipeType) {
 								        case 0:
 								            Jdccd = 0.029;
 								            break;
 								        case 1:
 								        case 2:
 								        case 3:
 								            Jdccd = 0.075;
 								            break;
 								        case 4:
 								            Jdccd = 0.1;
 								            break;
 								        case 5:
 								            Jdccd = 0.15;
 								            break;
 								        case 6:
 								            Jdccd = 1;
 								            break;
 								        case 7:
 								            Jdccd = 2.1;
 								            break;
 								        case 8:
 								            Jdccd = 0.04;
 								            break;
 								        case 9:
 								            Jdccd = 0.15;
 								            break;
 								        case 10:
 								            Jdccd = 0.13;
 								            break;
 								        case 11:
 								            Jdccd = 0.25;
 								            break;
 								        default:
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												声速计算功能验证正确，孔板计算还未验证。

											
										
										
											2025-07-07 15:45:13 +00:00
+								            fprintf(stderr, "δ֪<EFBFBD>Ĺܵ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>: %d\n", dPipeType);
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								            return FLOW_CALC_ERROR;
 								    }
 								    return Jdccd;
 								}
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								double calculateRoughnessFactor(double D_pipe, double K, double C) {
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								    double K_over_D = K / D_pipe;
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								    if (K_over_D <= 0.0004) {
 								        return 1.0000;
 								    }
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
 								    double term = (K_over_D * 1e6) - 400;
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								    if (term < 0) {
-												声速计算功能验证正确，孔板计算还未验证。

											
										
										
											2025-07-07 15:45:13 +00:00
+								        fprintf(stderr, "K/D <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ʽ<EFBFBD><CABD><EFBFBD>÷<EFBFBD>Χ\n");
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								        return FLOW_CALC_ERROR;
 								    }
 								    double G_me = 1 + (0.011 / C) * sqrt(term);
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
+								    return G_me;
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								}
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								double calculateE(double beta) {
 								    return 1 / sqrt(1 - pow(beta, 4));
 								}
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								double calculateFG(double dRD_Real) {
 								    return 1 / sqrt(dRD_Real);
 								}
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								double calculateFT(double dTb_M, double dTf) {
 								    return sqrt(dTb_M / dTf);
 								}
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								double calculateEpsilon(double dPf, double dDp, double beta, double dKappa) {
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
+								    double tau = (dPf - dDp) / dPf;
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								    double epsilon = 1 - (0.351 + 0.256 * pow(beta, 4) + 0.93 * pow(beta, 8)) * (1 - pow(tau, 1 / dKappa));
 								    return epsilon;
 								}
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								double calculateKappa(double dZf) {
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
+								    double gamma = 1.3;
 								    double Z = dZf;
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								    double kappa = gamma / (1 - (gamma - 1) * (1 / Z - 1));
 								    return kappa;
 								}
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								double calculateReD(double Qf, double D, double rho, double mu) {
 								    return (4 * Qf * rho) / (M_PI * D * mu);
 								}
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								double calculateCd(double beta, double ReD, double D_mm, int ptMode) {
 								    double L1, L2;
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								    switch (ptMode) {
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
+								        case 1:
 								            L1 = L2 = 0;
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								            break;
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
+								        case 0:
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								            L1 = L2 = 25.4 / D_mm;
 								            break;
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
+								        case 2:
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								            L1 = 1.0;
 								            L2 = 0.47;
 								            break;
 								        default:
-												声速计算功能验证正确，孔板计算还未验证。

											
										
										
											2025-07-07 15:45:13 +00:00
+								            fprintf(stderr, "<EFBFBD><EFBFBD>֧<EFBFBD>ֵ<EFBFBD>ȡѹ<EFBFBD><EFBFBD>ʽ: %d\n", ptMode);
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								            return FLOW_CALC_ERROR;
 								    }
 								    double term1 = 0.5961 + 0.0261 * pow(beta, 2) - 0.216 * pow(beta, 8);
 								    double term2 = 0.000521 * pow(1e6 * beta / ReD, 0.7);
 								    double A = pow(19000 * beta / ReD, 0.8);
 								    double term3 = (0.0188 + 0.0063 * A) * pow(beta, 3.5) * pow(1e6 / ReD, 0.3);
 								    double term4 = (0.043 + 0.08 * exp(-10 * L1) - 0.123 * exp(-7 * L1))
 								                   * (1 - 0.11 * A) * pow(beta, 4) / (1 - pow(beta, 4));
 								    double term5 = -0.031 * (2 * L2 / (1 - beta) - 0.8 * pow(2 * L2 / (1 - beta), 1.1))
 								                   * pow(beta, 1.3);
 								    double Cd = term1 + term2 + term3 + term4 + term5;
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								    if (D_mm < 71.12) {
 								        Cd += 0.011 * (0.75 - beta) * (2.8 - D_mm / 25.4);
 								    }
 								    return Cd;
 								}
-												修改错误

											
										
										
											2025-07-07 10:08:47 +00:00
-												调试计算通过，正确性需要验证

											
										
										
											2025-07-06 14:29:58 +00:00
+								double Dlndjs(double tempP_jy, double tempT) {
 								    double Dlndjs_Dlnd_Data[8][11] = {
 								        {976, 991, 1014, 1044, 1073, 1114, 1156, 1207, 1261, 1331, 1405},
 								        {1027, 1040, 1063, 1091, 1118, 1151, 1185, 1230, 1276, 1331, 1389},
 								        {1071, 1082, 1106, 1127, 1149, 1180, 1211, 1250, 1289, 1335, 1383},
 								        {1123, 1135, 1153, 1174, 1195, 1224, 1253, 1289, 1324, 1366, 1409},
 								        {1167, 1178, 1196, 1216, 1236, 1261, 1287, 1318, 1350, 1385, 1421},
 								        {1213, 1224, 1239, 1257, 1275, 1297, 1320, 1346, 1373, 1403, 1435},
 								        {1260, 1270, 1281, 1297, 1313, 1333, 1352, 1374, 1396, 1424, 1451},
 								        {1303, 1312, 1323, 1338, 1352, 1372, 1391, 1412, 1432, 1456, 1482}
 								    };
 								    double Dlndjs_Dlnd_T[8] = {
 								        -15 + 273.15, 0 + 273.15, 15 + 273.15, 30 + 273.15,
 + 273.15, 60 + 273.15, 75 + 273.15, 90 + 273.15
 								    };
 								    double Dlndjs_Dlnd_P[11] = {0.1, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10};
 								    double s1, s2, ky, kx;
 								    int i, m = 0, n = 0;
 								    if (tempT < Dlndjs_Dlnd_T[0]) {
 								        tempT = Dlndjs_Dlnd_T[0];
 								    }
 								    if (tempT > Dlndjs_Dlnd_T[7]) {
 								        tempT = Dlndjs_Dlnd_T[7];
 								    }
 								    if (tempP_jy < Dlndjs_Dlnd_P[0]) {
 								        tempP_jy = Dlndjs_Dlnd_P[0];
 								    }
 								    if (tempP_jy > Dlndjs_Dlnd_P[10]) {
 								        tempP_jy = Dlndjs_Dlnd_P[10];
 								    }
 								    for (i = 0; i <= 6; i++) {
 								        if (tempT >= Dlndjs_Dlnd_T[i] && tempT <= Dlndjs_Dlnd_T[i + 1]) {
 								            m = i;
 								            break;
 								        }
 								    }
 								    for (i = 0; i <= 9; i++) {
 								        if (tempP_jy >= Dlndjs_Dlnd_P[i] && tempP_jy <= Dlndjs_Dlnd_P[i + 1]) {
 								            n = i;
 								            break;
 								        }
 								    }
 								    if (Dlndjs_Dlnd_P[n + 1] - Dlndjs_Dlnd_P[n] != 0) {
 								        ky = (tempP_jy - Dlndjs_Dlnd_P[n]) / (Dlndjs_Dlnd_P[n + 1] - Dlndjs_Dlnd_P[n]);
 								    } else {
 								        ky = 0;
 								    }
 								    if (Dlndjs_Dlnd_T[m + 1] - Dlndjs_Dlnd_T[m] != 0) {
 								        kx = (tempT - Dlndjs_Dlnd_T[m]) / (Dlndjs_Dlnd_T[m + 1] - Dlndjs_Dlnd_T[m]);
 								    } else {
 								        kx = 0;
 								    }
 								    s1 = Dlndjs_Dlnd_Data[m][n] + (Dlndjs_Dlnd_Data[m][n + 1] - Dlndjs_Dlnd_Data[m][n]) * ky;
 								    s2 = Dlndjs_Dlnd_Data[m + 1][n] + (Dlndjs_Dlnd_Data[m + 1][n + 1] - Dlndjs_Dlnd_Data[m + 1][n]) * ky;
 								    return (s1 + (s2 - s1) * kx) / 100000.0;
 								}