//! @file FlowDevice.cpp #include "cantera/zeroD/FlowDevice.h" #include "cantera/zeroD/ReactorBase.h" #include "cantera/numerics/Func1.h" namespace Cantera { bool FlowDevice::install(ReactorBase& in, ReactorBase& out) { if (m_in || m_out) { throw CanteraError("FlowDevice::install", "Already installed"); } m_in = ∈ m_out = &out; m_in->addOutlet(*this); m_out->addInlet(*this); // construct adapters between inlet and outlet species const ThermoPhase& mixin = m_in->contents(); const ThermoPhase& mixout = m_out->contents(); m_nspin = mixin.nSpecies(); m_nspout = mixout.nSpecies(); std::string nm; size_t ki, ko; for (ki = 0; ki < m_nspin; ki++) { nm = mixin.speciesName(ki); ko = mixout.speciesIndex(nm); m_in2out.push_back(ko); } for (ko = 0; ko < m_nspout; ko++) { nm = mixout.speciesName(ko); ki = mixin.speciesIndex(nm); m_out2in.push_back(ki); } return true; } void FlowDevice::setFunction(Func1* f) { m_func = f; } doublereal FlowDevice::outletSpeciesMassFlowRate(size_t k) { if (k >= m_nspout) { return 0.0; } size_t ki = m_out2in[k]; if (ki == npos) { return 0.0; } return m_mdot * m_in->massFraction(ki); } doublereal FlowDevice::enthalpy_mass() { return m_in->enthalpy_mass(); } }