514 lines
12 KiB
Java
514 lines
12 KiB
Java
package com.ruoyi.ngCalTools.model;
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public class GasProps {
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// corresponds to the control group in meter classes
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public int lStatus; // calculation status 计算状态
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public boolean bForceUpdate; // 执行全部计算的标志 signal to perform full calculation
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public double[] adMixture; // 气体摩尔组成 Composition in mole fraction
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public double[] adMixtureV; // 气体体积组成 Composition in mole fraction
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public double[] getAdMixtureD() {
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return adMixtureD;
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}
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public void setAdMixtureD(double[] adMixtureD) {
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this.adMixtureD = adMixtureD;
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}
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public int getlStatus() {
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return lStatus;
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}
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public void setlStatus(int lStatus) {
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this.lStatus = lStatus;
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}
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public boolean isbForceUpdate() {
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return bForceUpdate;
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}
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public void setbForceUpdate(boolean bForceUpdate) {
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this.bForceUpdate = bForceUpdate;
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}
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public double[] getAdMixture() {
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return adMixture;
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}
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public void setAdMixture(double[] adMixture) {
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this.adMixture = adMixture;
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}
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public double[] getAdMixtureV() {
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return adMixtureV;
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}
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public void setAdMixtureV(double[] adMixtureV) {
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this.adMixtureV = adMixtureV;
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}
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public int getdCbtj() {
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return dCbtj;
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}
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public void setdCbtj(int dCbtj) {
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this.dCbtj = dCbtj;
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}
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public double getdPb() {
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return dPb;
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}
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public void setdPb(double dPb) {
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this.dPb = dPb;
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}
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public double getdTb() {
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return dTb;
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}
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public void setdTb(double dTb) {
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this.dTb = dTb;
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}
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public double getdPf() {
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return dPf;
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}
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public void setdPf(double dPf) {
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this.dPf = dPf;
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}
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public double getdTf() {
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return dTf;
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}
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public void setdTf(double dTf) {
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this.dTf = dTf;
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}
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public double getdMrx() {
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return dMrx;
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}
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public void setdMrx(double dMrx) {
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this.dMrx = dMrx;
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}
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public double getdZb() {
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return dZb;
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}
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public void setdZb(double dZb) {
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this.dZb = dZb;
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}
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public double getdZf() {
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return dZf;
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}
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public void setdZf(double dZf) {
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this.dZf = dZf;
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}
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public double getdFpv() {
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return dFpv;
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}
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public void setdFpv(double dFpv) {
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this.dFpv = dFpv;
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}
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public double getdDb() {
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return dDb;
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}
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public void setdDb(double dDb) {
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this.dDb = dDb;
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}
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public double getdDf() {
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return dDf;
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}
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public void setdDf(double dDf) {
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this.dDf = dDf;
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}
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public double getdRhob() {
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return dRhob;
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}
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public void setdRhob(double dRhob) {
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this.dRhob = dRhob;
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}
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public double getdRhof() {
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return dRhof;
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}
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public void setdRhof(double dRhof) {
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this.dRhof = dRhof;
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}
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public double getdRD_Ideal() {
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return dRD_Ideal;
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}
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public void setdRD_Ideal(double dRD_Ideal) {
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this.dRD_Ideal = dRD_Ideal;
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}
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public double getdRD_Real() {
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return dRD_Real;
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}
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public void setdRD_Real(double dRD_Real) {
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this.dRD_Real = dRD_Real;
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}
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public double getdHo() {
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return dHo;
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}
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public void setdHo(double dHo) {
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this.dHo = dHo;
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}
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public double getdH() {
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return dH;
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}
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public void setdH(double dH) {
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this.dH = dH;
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}
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public double getdS() {
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return dS;
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}
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public void setdS(double dS) {
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this.dS = dS;
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}
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public double getdCpi() {
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return dCpi;
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}
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public void setdCpi(double dCpi) {
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this.dCpi = dCpi;
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}
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public double getdCp() {
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return dCp;
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}
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public void setdCp(double dCp) {
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this.dCp = dCp;
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}
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public double getdCv() {
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return dCv;
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}
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public void setdCv(double dCv) {
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this.dCv = dCv;
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}
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public double getDk() {
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return dk;
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}
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public void setDk(double dk) {
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this.dk = dk;
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}
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public double getdKappa() {
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return dKappa;
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}
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public void setdKappa(double dKappa) {
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this.dKappa = dKappa;
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}
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public double getdSOS() {
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return dSOS;
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}
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public void setdSOS(double dSOS) {
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this.dSOS = dSOS;
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}
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public double getdCstar() {
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return dCstar;
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}
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public void setdCstar(double dCstar) {
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this.dCstar = dCstar;
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}
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public double getdHhvMol() {
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return dHhvMol;
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}
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public void setdHhvMol(double dHhvMol) {
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this.dHhvMol = dHhvMol;
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}
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public double getdLhvMol() {
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return dLhvMol;
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}
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public void setdLhvMol(double dLhvMol) {
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this.dLhvMol = dLhvMol;
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}
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public double getdHhvv() {
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return dHhvv;
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}
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public void setdHhvv(double dHhvv) {
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this.dHhvv = dHhvv;
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}
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public double getdLhvv() {
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return dLhvv;
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}
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public void setdLhvv(double dLhvv) {
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this.dLhvv = dLhvv;
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}
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public double getdHhvm() {
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return dHhvm;
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}
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public void setdHhvm(double dHhvm) {
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this.dHhvm = dHhvm;
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}
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public double getdLhvm() {
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return dLhvm;
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}
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public void setdLhvm(double dLhvm) {
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this.dLhvm = dLhvm;
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}
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public double getdZb11062() {
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return dZb11062;
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}
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public void setdZb11062(double dZb11062) {
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this.dZb11062 = dZb11062;
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}
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public double getdRhob11062() {
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return dRhob11062;
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}
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public void setdRhob11062(double dRhob11062) {
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this.dRhob11062 = dRhob11062;
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}
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public double getdRhof11062() {
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return dRhof11062;
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}
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public void setdRhof11062(double dRhof11062) {
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this.dRhof11062 = dRhof11062;
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}
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public double getdRD_Ideal11062() {
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return dRD_Ideal11062;
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}
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public void setdRD_Ideal11062(double dRD_Ideal11062) {
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this.dRD_Ideal11062 = dRD_Ideal11062;
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}
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public double getdRD_Real11062() {
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return dRD_Real11062;
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}
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public void setdRD_Real11062(double dRD_Real11062) {
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this.dRD_Real11062 = dRD_Real11062;
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}
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public double getdWobbeIndex() {
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return dWobbeIndex;
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}
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public void setdWobbeIndex(double dWobbeIndex) {
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this.dWobbeIndex = dWobbeIndex;
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}
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public double getdPc() {
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return dPc;
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}
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public void setdPc(double dPc) {
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this.dPc = dPc;
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}
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public double getdTC() {
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return dTC;
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}
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public void setdTC(double dTC) {
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this.dTC = dTC;
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}
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public double getdBzsx() {
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return dBzsx;
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}
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public void setdBzsx(double dBzsx) {
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this.dBzsx = dBzsx;
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}
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public double getdBzxx() {
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return dBzxx;
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}
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public void setdBzxx(double dBzxx) {
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this.dBzxx = dBzxx;
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}
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public double getdTotalC() {
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return dTotalC;
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}
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public void setdTotalC(double dTotalC) {
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this.dTotalC = dTotalC;
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}
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public double getdC2() {
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return dC2;
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}
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public void setdC2(double dC2) {
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this.dC2 = dC2;
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}
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public double getdC2j() {
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return dC2j;
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}
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public void setdC2j(double dC2j) {
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this.dC2j = dC2j;
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}
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public double getdC3j() {
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return dC3j;
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}
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public void setdC3j(double dC3j) {
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this.dC3j = dC3j;
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}
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public double getdC4j() {
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return dC4j;
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}
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public void setdC4j(double dC4j) {
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this.dC4j = dC4j;
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}
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public double getdC5j() {
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return dC5j;
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}
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public void setdC5j(double dC5j) {
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this.dC5j = dC5j;
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}
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public double getdC6j() {
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return dC6j;
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}
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public void setdC6j(double dC6j) {
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this.dC6j = dC6j;
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}
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public double getdC3C4() {
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return dC3C4;
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}
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public void setdC3C4(double dC3C4) {
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this.dC3C4 = dC3C4;
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}
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public String getDngComponents() {
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return dngComponents;
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}
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public void setDngComponents(String dngComponents) {
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this.dngComponents = dngComponents;
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}
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public double[] adMixtureD; // 气体质量组成 Composition in mole fraction
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public int dCbtj; // 参比条件 101325 0,15,20
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public double dPb; // 参比压力 Contract base Pressure (Pa)
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public double dTb; // 参比温度Contract base temperature (K)
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public double dPf; // 绝对压力 Absolute Pressure (Pa)
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public double dTf; // 工况温度 Flowing temperature (K)
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// basic output from AGA 8 Detail method
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public double dMrx; // 分子量 mixture molar mass
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public double dZb; // 标况压缩因子compressibility at contract base condition
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public double dZf; // 工况压缩因子compressibility at flowing condition
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public double dFpv; // 超压缩系数 supercompressibility
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public double dDb; // 标况摩尔密度molar density at contract base conditions (moles/dm3)
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public double dDf; // 工况摩尔密度 molar density at flowing conditions (moles/dm3)
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public double dRhob; // 标况质量密度mass density at contract base conditions (kg/m3)
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public double dRhof; // 工况质量密度 mass density at flowing conditions (kg/m3)
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public double dRD_Ideal; // 理想气体的相对密度ideal gas relative density
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public double dRD_Real; // 真实气体的相对密度real gas relative density
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// additional output
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public double dHo; // 理想气体的比焓 ideal gas specific enthalpy
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public double dH; // 真实气体的焓 real gas specific enthalpy (J/kg)
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public double dS; // 真实气体的熵real gas specific entropy (J/kg-mol.K)
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public double dCpi; // 理想气体定压热容 ideal gas constant pressure heat capacity (J/kg-mol.K)
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public double dCp; // 定压热容real gas constant pressure heat capacity (J/kg-mol.K)
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public double dCv; // 定容积热容 real gas constant volume heat capacity (J/kg-mol.K)
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public double dk; // 比热比ratio of specific heats
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public double dKappa; // 等熵指数 isentropic exponent, denoted with Greek letter kappa
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public double dSOS; // 声速speed of sound (m/s)
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public double dCstar; // 临界流函数 critical flow factor C*
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// 11062 输出
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public double dHhvMol; // 摩尔高位发热量
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public double dLhvMol; // 摩尔低位发热量
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public double dHhvv; // 体积高位发热量
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public double dLhvv; // 体积低位发热量
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public double dHhvm; // 质量高位发热量
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public double dLhvm; // 质量地位发热量
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public double dZb11062; // 标况压缩因子
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public double dRhob11062; // 标况质量密度mass density at contract base conditions (kg/m3)
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public double dRhof11062; // 工况质量密度 mass density at flowing conditions (kg/m3)
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public double dRD_Ideal11062; // 理想气体的相对密度ideal gas relative density
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public double dRD_Real11062; // 真实气体的相对密度real gas relative density
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public double dWobbeIndex; // 真实气体的沃泊指数
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public double dPc; // 临界压力
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public double dTC; // 临界温度
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public double dBzsx; // 爆炸上限
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public double dBzxx; // 爆炸下限
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public double dTotalC; // 总炭含量 (kg/m3)
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public double dC2; // C2组分含量 (kg/m3)
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public double dC2j; // C2以上组分含量 (kg/m3)
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public double dC3j; // C3以上组分含量 (kg/m3)
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public double dC4j; // C4以上组分含量 (kg/m3)
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public double dC5j; // C5以上组分含量 (kg/m3)
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public double dC6j; // C6以上组分含量 (kg/m3)
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public double dC3C4; // C3C4组分含量 (kg/m3)
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public String dngComponents; //组分的组合字符串 从前端传过来
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}
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