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authorpriyanka2015-06-24 15:03:17 +0530
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+clc;
+p5=6000; // Pressure of superheated steam in kPa
+T5=723.15; // Temperature of superheated steam in kelvin
+p1=0.6113; // Pressure at reference state in kPa
+T1=273.16; // Temperature at reference state in kelvin
+hfg1=2501.3; // Latent heat of vapourization of water at reference state in kJ/kg
+R_1=8.3143; // Universal gas constant of air in kJ/kmol K
+// The critical state properties of water
+pc=2.09; // pressure in MPa
+Tc=647.3; // Temperature in kelvin
+h1=0; // Reference state in kJ/kg
+h2=h1+hfg1; // specific enthalpy in kJ/kg
+// At point 2
+p2=p1; T2=T1;
+z=0.9986;
+r=18.015;
+A2=(0.4278/(pc*10^4))*(Tc/T2)^2.5; // Constants
+B=(0.0867/(pc*10^4))*(Tc/T2); // Constants
+h2_h3=R_1*(T2/r)*(((-3/2)*(A2/B)*log (1+(B*p2/z)))+z-1); // Enthalpy difference between state 2 & 3
+// At point 5
+z1=0.9373;
+A2=(0.4278/(pc*10^4))*(Tc/T5)^2.5; // Constants
+B=(0.0867/(pc*10^4))*(Tc/T5); // Constants
+h5_h4=R_1*(T5/r)*(((-3/2)*(A2/B)*log (1+(B*p5/z1)))+z1-1); // Enthalpy difference between state 5 & 4
+a=1.6198;b=6.6*10^-4; // Constants
+h4_h3=a*(T5-T1)+b*(T5^2-T1^2)/2; // Enthalpy difference between state 3 & 4
+h5=h2-h2_h3+h5_h4+h4_h3; // Specific enthalpy at state 5
+disp ("kJ/kg",h5,"Specific enthalpy at state 5 = ");