turbulent diffusivity simply added
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2 changed files with 31 additions and 32 deletions
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@ -32,6 +32,27 @@ public:
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virtual void init(thermo_t* thermo, int mode=0, int log_level=0);
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virtual void init(thermo_t* thermo, int mode=0, int log_level=0);
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//! Returns the mixture thermal conductivity (W/m /K)
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/*!
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* The thermal conductivity is computed from the following mixture rule:
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* \f[
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* \lambda = 0.5 \left( \sum_k X_k \lambda_k + \frac{1}{\sum_k X_k/\lambda_k} \right)
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* \f]
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*
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* It's used to compute the flux of energy due to a thermal gradient
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*
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* \f[
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* j_T = - \lambda \nabla T
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* \f]
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*
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* The flux of energy has units of energy (kg m2 /s2) per second per area.
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*
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* The units of lambda are W / m K which is equivalent to kg m / s^3 K.
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*
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* @returns the mixture thermal conductivity, with units of W/m/K
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*/
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virtual doublereal thermalConductivity();
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//! Returns the unity Lewis number approximation based diffusion
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//! Returns the unity Lewis number approximation based diffusion
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//! coefficients [m^2/s].
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//! coefficients [m^2/s].
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/*!
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/*!
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@ -57,22 +78,8 @@ public:
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virtual void getMixDiffCoeffs(double* const d) {
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virtual void getMixDiffCoeffs(double* const d) {
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GasTransport::getMixDiffCoeffs(d);
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GasTransport::getMixDiffCoeffs(d);
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doublereal t = m_thermo->temperature();
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doublereal slope = (-(m_turbmodifier-1.0)/m_profwidth);
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doublereal trans = slope*(t-m_rdlayerstart) + 1.0;
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double Dm = thermalConductivity() / (m_thermo->density() * m_thermo->cp_mass());
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if (t < m_rdlayerstart - m_profwidth) {
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Dm *= m_turbmodifier;
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} else if (t > m_rdlayerstart) {
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Dm *= 1.0;
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} else {
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Dm *= trans;
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}
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for (size_t k = 0; k < m_nsp; k++) {
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for (size_t k = 0; k < m_nsp; k++) {
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d[k] = Dm;
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d[k] += m_turbmodifier;
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}
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}
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}
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}
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@ -97,22 +104,8 @@ public:
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virtual void getMixDiffCoeffsMass(double* const d){
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virtual void getMixDiffCoeffsMass(double* const d){
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GasTransport::getMixDiffCoeffsMass(d);
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GasTransport::getMixDiffCoeffsMass(d);
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doublereal t = m_thermo->temperature();
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doublereal slope = (-(m_turbmodifier-1.0)/m_profwidth);
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doublereal trans = slope*(t-m_rdlayerstart) + 1.0;
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double Dm = thermalConductivity() / (m_thermo->density() * m_thermo->cp_mass());
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if (t < m_rdlayerstart - m_profwidth) {
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Dm *= m_turbmodifier;
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} else if (t > m_rdlayerstart) {
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Dm *= 1.0;
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} else {
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Dm *= trans;
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}
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for (size_t k = 0; k < m_nsp; k++) {
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for (size_t k = 0; k < m_nsp; k++) {
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d[k] = Dm;
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d[k] += m_turbmodifier;
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}
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}
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}
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}
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@ -29,12 +29,18 @@ void TurbulentTransport::init(ThermoPhase* thermo, int mode, int log_level)
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myfile.open ("turbulent-coefs.txt");
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myfile.open ("turbulent-coefs.txt");
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myfile >> m_turbmodifier;
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myfile >> m_turbmodifier;
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myfile >> m_profwidth;
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myfile >> m_rdlayerstart;
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myfile.close();
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myfile.close();
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// m_reftemp = thermo->temperature();
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// m_reftemp = thermo->temperature();
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// cout << "check reference temperature" << m_reftemp << endl;
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// cout << "check reference temperature" << m_reftemp << endl;
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}
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}
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doublereal TurbulentTransport::thermalConductivity()
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{
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MixTransport::thermalConductivity();
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m_lambda += m_turbmodifier;
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m_condmix_ok = true;
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return m_lambda;
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}
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}
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}
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