void MolalityVPSSTP::getCsvReportData(std::vector<std::string>& names,
                                      std::vector<vector_fp>& data) const
{
    names.clear();
    data.assign(10, vector_fp(nSpecies()));

    names.push_back("X");
    getMoleFractions(&data[0][0]);

    names.push_back("Molal");
    getMolalities(&data[1][0]);

    names.push_back("Chem. Pot. (J/kmol)");
    getChemPotentials(&data[2][0]);

    names.push_back("Chem. Pot. SS (J/kmol)");
    getStandardChemPotentials(&data[3][0]);

    names.push_back("Molal Act. Coeff.");
    getMolalityActivityCoefficients(&data[4][0]);

    names.push_back("Molal Activity");
    getActivities(&data[5][0]);

    names.push_back("Part. Mol Enthalpy (J/kmol)");
    getPartialMolarEnthalpies(&data[5][0]);

    names.push_back("Part. Mol. Entropy (J/K/kmol)");
    getPartialMolarEntropies(&data[6][0]);

    names.push_back("Part. Mol. Energy (J/kmol)");
    getPartialMolarIntEnergies(&data[7][0]);

    names.push_back("Part. Mol. Cp (J/K/kmol");
    getPartialMolarCp(&data[8][0]);

    names.push_back("Part. Mol. Cv (J/K/kmol)");
    getPartialMolarVolumes(&data[9][0]);
}
Ejemplo n.º 2
0
/*
 * Format a summary of the mixture state for output.
 */
void MolalityVPSSTP::reportCSV(std::ofstream& csvFile) const
{


    csvFile.precision(3);
    int tabS = 15;
    int tabM = 30;
    int tabL = 40;
    try {
        if (name() != "") {
            csvFile << "\n"+name()+"\n\n";
        }
        csvFile << setw(tabL) << "temperature (K) =" << setw(tabS) << temperature() << endl;
        csvFile << setw(tabL) << "pressure (Pa) =" << setw(tabS) << pressure() << endl;
        csvFile << setw(tabL) << "density (kg/m^3) =" << setw(tabS) << density() << endl;
        csvFile << setw(tabL) << "mean mol. weight (amu) =" << setw(tabS) << meanMolecularWeight() << endl;
        csvFile << setw(tabL) << "potential (V) =" << setw(tabS) << electricPotential() << endl;
        csvFile << endl;

        csvFile << setw(tabL) << "enthalpy (J/kg) = " << setw(tabS) << enthalpy_mass() << setw(tabL) << "enthalpy (J/kmol) = " << setw(tabS) << enthalpy_mole() << endl;
        csvFile << setw(tabL) << "internal E (J/kg) = " << setw(tabS) << intEnergy_mass() << setw(tabL) << "internal E (J/kmol) = " << setw(tabS) << intEnergy_mole() << endl;
        csvFile << setw(tabL) << "entropy (J/kg) = " << setw(tabS) << entropy_mass() << setw(tabL) << "entropy (J/kmol) = " << setw(tabS) << entropy_mole() << endl;
        csvFile << setw(tabL) << "Gibbs (J/kg) = " << setw(tabS) << gibbs_mass() << setw(tabL) << "Gibbs (J/kmol) = " << setw(tabS) << gibbs_mole() << endl;
        csvFile << setw(tabL) << "heat capacity c_p (J/K/kg) = " << setw(tabS) << cp_mass() << setw(tabL) << "heat capacity c_p (J/K/kmol) = " << setw(tabS) << cp_mole() << endl;
        csvFile << setw(tabL) << "heat capacity c_v (J/K/kg) = " << setw(tabS) << cv_mass() << setw(tabL) << "heat capacity c_v (J/K/kmol) = " << setw(tabS) << cv_mole() << endl;

        csvFile.precision(8);

        vector<std::string> pNames;
        vector<vector_fp> data;
        vector_fp temp(nSpecies());

        getMoleFractions(&temp[0]);
        pNames.push_back("X");
        data.push_back(temp);
        try {
            getMolalities(&temp[0]);
            pNames.push_back("Molal");
            data.push_back(temp);
        } catch (CanteraError& err) {
            err.save();
        }
        try {
            getChemPotentials(&temp[0]);
            pNames.push_back("Chem. Pot. (J/kmol)");
            data.push_back(temp);
        } catch (CanteraError& err) {
            err.save();
        }
        try {
            getStandardChemPotentials(&temp[0]);
            pNames.push_back("Chem. Pot. SS (J/kmol)");
            data.push_back(temp);
        } catch (CanteraError& err) {
            err.save();
        }
        try {
            getMolalityActivityCoefficients(&temp[0]);
            pNames.push_back("Molal Act. Coeff.");
            data.push_back(temp);
        } catch (CanteraError& err) {
            err.save();
        }
        try {
            getActivities(&temp[0]);
            pNames.push_back("Molal Activity");
            data.push_back(temp);
            size_t iHp = speciesIndex("H+");
            if (iHp != npos) {
                double pH = -log(temp[iHp]) / log(10.0);
                csvFile << setw(tabL) << "pH = " << setw(tabS) << pH << endl;
            }
        } catch (CanteraError& err) {
            err.save();
        }
        try {
            getPartialMolarEnthalpies(&temp[0]);
            pNames.push_back("Part. Mol Enthalpy (J/kmol)");
            data.push_back(temp);
        } catch (CanteraError& err) {
            err.save();
        }
        try {
            getPartialMolarEntropies(&temp[0]);
            pNames.push_back("Part. Mol. Entropy (J/K/kmol)");
            data.push_back(temp);
        } catch (CanteraError& err) {
            err.save();
        }
        try {
            getPartialMolarIntEnergies(&temp[0]);
            pNames.push_back("Part. Mol. Energy (J/kmol)");
            data.push_back(temp);
        } catch (CanteraError& err) {
            err.save();
        }
        try {
            getPartialMolarCp(&temp[0]);
            pNames.push_back("Part. Mol. Cp (J/K/kmol");
            data.push_back(temp);
        } catch (CanteraError& err) {
            err.save();
        }
        try {
            getPartialMolarVolumes(&temp[0]);
            pNames.push_back("Part. Mol. Cv (J/K/kmol)");
            data.push_back(temp);
        } catch (CanteraError& err) {
            err.save();
        }

        csvFile << endl << setw(tabS) << "Species,";
        for (size_t i = 0; i < pNames.size(); i++) {
            csvFile << setw(tabM) << pNames[i] << ",";
        }
        csvFile << endl;
        /*
        csvFile.fill('-');
        csvFile << setw(tabS+(tabM+1)*pNames.size()) << "-\n";
        csvFile.fill(' ');
        */
        for (size_t k = 0; k < nSpecies(); k++) {
            csvFile << setw(tabS) << speciesName(k) + ",";
            if (data[0][k] > SmallNumber) {
                for (size_t i = 0; i < pNames.size(); i++) {
                    csvFile << setw(tabM) << data[i][k] << ",";
                }
                csvFile << endl;
            } else {
                for (size_t i = 0; i < pNames.size(); i++) {
                    csvFile << setw(tabM) << 0 << ",";
                }
                csvFile << endl;
            }
        }
    } catch (CanteraError& err) {
        err.save();
    }
}
Ejemplo n.º 3
0
doublereal SingleSpeciesTP::intEnergy_mole() const
{
    double ubar;
    getPartialMolarIntEnergies(&ubar);
    return ubar;
}