264 lines
6.5 KiB
C++
264 lines
6.5 KiB
C++
#include "Nitrogen.h"
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#include "cantera/base/stringUtils.h"
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#include <math.h>
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#include <iostream>
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using namespace std;
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using namespace Cantera;
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namespace tpx
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{
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static const double M = 28.01348,
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Tmn = 63.15,
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Tmx = 2000.0,
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Tc = 126.200,
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Pc = 3.4e6,
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Roc = 314.03,
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To = 63.15,
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R = 2.96790515164171e2,
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Gamma = 7.13602531283233e-6,
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alpha = 1.95,
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beta = 3353.40610,
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u0 = 150877.551,
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s0 = 214.9352518;
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static const double Ann[] = {
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1.75889959256970e-1, 1.38197604384933e1, -3.14918412133921e2,
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4.40300150239380e3, -5.45358971644916e5, 4.84413320182919e-4,
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-5.18964416491365e-2, 6.57265859197103e-4 ,8.51299771713314e4 ,
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1.33459405162578e-8, 3.83381319826746e-4, -8.35421151028455e-2,
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2.84874912286101e-7,
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-2.38296116270360e-7, -1.48321912935764e-4, 5.62605853190540e-10,
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-2.98201050924595e-13, 9.85319087685241e-11, -1.92002176056468e-14,
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-7.82250103373122e4, -5.51801778744598e5, -5.72781957607352e-1,
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3.25760529488327e2, -1.34659309828737e-6, -1.92036423064911e-5,
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-3.94564337674524e-12,-2.44388245328965e-9, -1.50970602460077e-18,
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1.25854885346038e-16,-8.34271144923969e-24, -1.17299202018417e-22,
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9.06544823455730e-22
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};
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static const double Fnn[]= {
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8.3944094440e3, -1.8785191705e3, -7.2822291650,
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1.0228509660e-2, 5.5560638250e-4,
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-5.9445446620e-6, 2.7154339320e-8,
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-4.8795359040e-11, 5.0953608240e2
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};
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static const double Dnn[] = {
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3.1402991e2, 4.4111015e2, 9.4622994e2 ,
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-2.9067111e3, 4.4785979e3, -2.2746914e3
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};
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static const double Gnn[] = {
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-2.18203473713518e5, 1.01573580096247e4, -1.65504721657240e2,
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7.43175999190430e2, -5.14605623546025e-3,
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5.18347156760489e-6, -1.05922170493616e-9, 2.98389393363817e2
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};
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double nitrogen::C(int i, double rt, double rt2)
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{
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switch (i) {
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case 0 :
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return Ann[0] * T + Ann[1] * sqrt(T)
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+ Ann[2] + (Ann[3] + Ann[4] * rt) * rt;
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case 1 :
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return Ann[5] * T + Ann[6] + rt * (Ann[7] + Ann[8] * rt);
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case 2 :
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return Ann[9] * T + Ann[10] + Ann[11] * rt;
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case 3 :
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return Ann[12];
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case 4 :
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return rt*(Ann[13] + Ann[14]*rt);
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case 5 :
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return Ann[15]*rt;
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case 6 :
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return rt*(Ann[16] + Ann[17]*rt);
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case 7 :
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return Ann[18]*rt2;
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case 8 :
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return rt2*(Ann[19] + Ann[20]*rt);
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case 9 :
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return rt2*(Ann[21] + Ann[22]*rt2);
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case 10 :
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return rt2*(Ann[23] + Ann[24]*rt);
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case 11 :
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return rt2*(Ann[25] + Ann[26]*rt2);
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case 12 :
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return rt2*(Ann[27] + Ann[28]*rt);
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case 13 :
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return rt2*(Ann[29] + Ann[30]*rt + Ann[31]*rt2);
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default :
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return 0.0;
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}
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}
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double nitrogen::Cprime(int i, double rt, double rt2, double rt3)
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{
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switch (i) {
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case 0 :
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return Ann[0] + 0.5*Ann[1]/sqrt(T) - (Ann[3] + 2.0*Ann[4]*rt)*rt2;
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case 1 :
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return Ann[5] - rt2*(Ann[7] + 2.0*Ann[8]*rt);
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case 2 :
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return Ann[9] - Ann[11]*rt2;
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case 3 :
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return 0.0;
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case 4 :
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return -rt2*(Ann[13] + 2.0*Ann[14]*rt);
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case 5 :
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return -Ann[15]*rt2;
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case 6 :
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return -rt2*(Ann[16] + 2.0*Ann[17]*rt);
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case 7 :
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return -2.0*Ann[18]*rt3;
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case 8 :
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return -rt3*(2.0*Ann[19] + 3.0*Ann[20]*rt);
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case 9 :
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return -rt3*(2.0*Ann[21] + 4.0*Ann[22]*rt2);
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case 10 :
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return -rt3*(2.0*Ann[23] + 3.0*Ann[24]*rt);
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case 11 :
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return -rt3*(2.0*Ann[25] + 4.0*Ann[26]*rt2);
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case 12 :
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return -rt3*(2.0*Ann[27] + 3.0*Ann[28]*rt);
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case 13 :
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return -rt3*(2.0*Ann[29] + 3.0*Ann[30]*rt + 4.0*Ann[31]*rt2);
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default :
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return 0.0;
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}
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}
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double nitrogen::W(int n, double egrho)
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{
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return (n == 0 ? (1.0 - egrho)/(2.0*Gamma) :
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(n*W(n-1, egrho) - 0.5*pow(Rho,2*n)*egrho)/Gamma);
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}
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double nitrogen::H(int i, double egrho)
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{
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return (i < 8 ? pow(Rho,i+2) : pow(Rho,2*i-13)*egrho);
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}
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double nitrogen::I(int i, double egrho)
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{
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return (i < 8 ? pow(Rho,i+1)/double(i+1) : W(i-8, egrho));
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}
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double nitrogen::up()
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{
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double rt = 1.0/T;
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double rt2 = rt*rt;
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double rt3 = rt*rt2;
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double egrho = exp(-Gamma*Rho*Rho);
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double sum = 0.0;
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for (int i=0; i<14; i++) {
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sum += (C(i,rt,rt2) - T*Cprime(i,rt,rt2,rt3))*I(i,egrho);
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}
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sum += (((0.25*Gnn[6]*T + Gnn[5]/3.0)*T
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+ 0.5*Gnn[4])*T + Gnn[3])*T + Gnn[2]*log(T)
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- (Gnn[1] + 0.5*Gnn[0]*rt)*rt
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+ Gnn[7]*beta/(exp(beta*rt) - 1.0) + u0
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+ m_energy_offset;
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return sum;
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}
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double nitrogen::sp()
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{
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double rt = 1.0/T;
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double rt2 = rt*rt;
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double rt3 = rt*rt2;
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double egrho = exp(-Gamma*Rho*Rho);
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double sum = 0.0;
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sum = s0 + m_entropy_offset - R*log(Rho);
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for (int i=0; i<14; i++) {
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sum -= Cprime(i,rt,rt2,rt3)*I(i,egrho);
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}
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sum += (((Gnn[6]/3.0)*T + 0.5*Gnn[5])*T + Gnn[4])*T + Gnn[3]*log(T)
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-((Gnn[0]*rt/3.0 + 0.5*Gnn[1])*rt + Gnn[2])*rt
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+ Gnn[7]*(beta*rt + beta*rt/(exp(beta*rt) - 1.0)
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- log(exp(beta*rt) - 1.0));
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return sum;
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}
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double nitrogen::Pp()
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{
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double rt = 1.0/T;
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double rt2 = rt*rt;
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double egrho = exp(-Gamma*Rho*Rho);
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double P = Rho*R*T;
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for (int i=0; i<14; i++) {
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P += C(i,rt,rt2)*H(i,egrho);
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}
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return P;
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}
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double nitrogen::Psat()
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{
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double lnp;
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int i;
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if ((T < Tmn) || (T > Tc)) {
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throw TPX_Error("nitrogen::Psat",
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"Temperature out of range. T = " + fp2str(T));
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}
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for (i=0, lnp=0; i<=7; i++) {
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if (i==3) {
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lnp+=Fnn[i]*pow(Tc-T, alpha);
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} else {
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lnp+=Fnn[i]*pow(T,i-1);
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}
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}
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lnp+=Fnn[8]*log(T);
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return exp(lnp);
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}
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double nitrogen::ldens()
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{
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double xx=1-T/Tc, sum=0;
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if ((T < Tmn) || (T > Tc)) {
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throw TPX_Error("nitrogen::ldens",
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"Temperature out of range. T = " + fp2str(T));
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}
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for (int i=0; i<=5; i++) {
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sum+=Dnn[i]*pow(xx,double(i)/3.0);
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}
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return sum;
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}
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double nitrogen::Tcrit()
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{
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return Tc;
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}
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double nitrogen::Pcrit()
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{
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return Pc;
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}
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double nitrogen::Vcrit()
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{
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return 1.0/Roc;
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}
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double nitrogen::Tmin()
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{
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return Tmn;
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}
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double nitrogen::Tmax()
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{
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return Tmx;
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}
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char* nitrogen::name()
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{
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return (char*) m_name.c_str();
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}
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char* nitrogen::formula()
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{
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return (char*) m_formula.c_str();
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}
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double nitrogen::MolWt()
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{
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return M;
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}
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}
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