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diff --git a/3733/CH24/EX24.24/Ex24_24.sce b/3733/CH24/EX24.24/Ex24_24.sce
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+// Example 24_24

+clc;funcprot(0);

+//Given data 

+T_1=300;// K

+p_1=1;// bar

+T_4=870+273;// K

+p_r=6;// Pressure ratio

+e=0.65;// The effectiveness of heat exchanger

+n_c=0.8;// Isentropic efficiency of compressor

+n_t=0.85;// Isentropic efficiency of turbine

+n_g=0.95// Generator efficiency

+m_a=5;// kg/sec

+C_p=1;// kJ/kg.K

+r=1.4;// Specific heat ratio

+

+//Calculation 

+//(a)

+T_2a=T_1*(p_r)^((r-1)/r);// K

+T_2=((T_2a-T_1)/n_c)+T_1;// K

+T_5a=T_4/(p_r)^((r-1)/r);// K

+T_5=T_4-(n_t*(T_4-T_5a));// K

+W_n=m_a*C_p*((T_4-T_5)-(T_2-T_1))*n_g;// kW

+//(b)

+T_3=T_2+(e*(T_5-T_2));// K

+n_th=((C_p*((T_4-T_5)-(T_2-T_1)))/(C_p*(T_4-T_3)))*100;// Thermal efficiency of the plant in %

+T_6=T_5-(T_3-T_2);// K

+//(c)

+Q=(m_a*60)*C_p*(T_6-T_1);// KJ/min

+printf('\n(a)Power output of the plant=%0.2f kW \n(b)Thermal efficiency of the plant=%0.1f percentage \n(c)Heat carried by the exhaust gases=%0.0f kJ/min',W_n,n_th,Q);

+// The answer vary due to round off error