void VPSSMgr_Water_HKFT::_updateRefStateThermo() const
{
m_p0 = m_waterSS->pref_safe(m_tlast);
m_waterSS->setState_TP(m_tlast, m_p0);
m_h0_RT[0] = (m_waterSS->enthalpy_mole()) / (GasConstant * m_tlast);
m_s0_R[0] = (m_waterSS->entropy_mole()) / GasConstant;
m_cp0_R[0] = (m_waterSS->cp_mole()) / GasConstant;
m_g0_RT[0] = (m_hss_RT[0] - m_sss_R[0]);
m_V0[0] = (m_waterSS->density()) / m_vptp_ptr->molecularWeight(0);
PDSS* ps;
for (size_t k = 1; k < m_kk; k++) {
ps = m_vptp_ptr->providePDSS(k);
ps->setState_TP(m_tlast, m_p0);
m_cp0_R[k] = ps->cp_R();
m_s0_R[k] = ps->entropy_mole() / GasConstant;
m_g0_RT[k] = ps->gibbs_RT();
m_h0_RT[k] = m_g0_RT[k] + m_s0_R[k];
m_V0[k] = ps->molarVolume();
}
m_waterSS->setState_TP(m_tlast, m_plast);
for (size_t k = 1; k < m_kk; k++) {
ps = m_vptp_ptr->providePDSS(k);
ps->setState_TP(m_tlast, m_plast);
}
}
void VPSSMgr_General::_updateStandardStateThermo()
{
for (size_t k = 0; k < m_kk; k++) {
PDSS* kPDSS = m_PDSS_ptrs[k];
kPDSS->setState_TP(m_tlast, m_plast);
m_hss_RT[k] = kPDSS->enthalpy_RT();
m_sss_R[k] = kPDSS->entropy_R();
m_gss_RT[k] = m_hss_RT[k] - m_sss_R[k];
m_cpss_R[k] = kPDSS->cp_R();
m_Vss[k] = kPDSS->molarVolume();
}
}
void VPSSMgr_Water_HKFT::_updateStandardStateThermo()
{
// Do the water
m_waterSS->setState_TP(m_tlast, m_plast);
m_hss_RT[0] = (m_waterSS->enthalpy_mole()) / (GasConstant * m_tlast);
m_sss_R[0] = (m_waterSS->entropy_mole()) / GasConstant;
m_cpss_R[0] = (m_waterSS->cp_mole()) / GasConstant;
m_gss_RT[0] = (m_hss_RT[0] - m_sss_R[0]);
m_Vss[0] = (m_vptp_ptr->molecularWeight(0)) / (m_waterSS->density());
for (size_t k = 1; k < m_kk; k++) {
PDSS* ps = m_vptp_ptr->providePDSS(k);
ps->setState_TP(m_tlast, m_plast);
m_cpss_R[k] = ps->cp_R();
m_sss_R[k] = ps->entropy_R();
m_gss_RT[k] = ps->gibbs_RT();
m_hss_RT[k] = m_gss_RT[k] + m_sss_R[k];
m_Vss[k] = ps->molarVolume();
}
}