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Diffstat (limited to '3843/CH7/EX7.1')
| -rw-r--r-- | 3843/CH7/EX7.1/Ex7_1.sce | 32 |
1 files changed, 32 insertions, 0 deletions
diff --git a/3843/CH7/EX7.1/Ex7_1.sce b/3843/CH7/EX7.1/Ex7_1.sce new file mode 100644 index 000000000..85e0e6c71 --- /dev/null +++ b/3843/CH7/EX7.1/Ex7_1.sce @@ -0,0 +1,32 @@ +// Example 7_1
+clc;funcprot(0);
+// Given data
+P_1=12;// The pressure at turbine inlet in MPa
+T_1=700;// °C
+P_2=0.6;// The pressure at turbine exit in MPa
+n_T=0.88;// The isentropic efficiency of the turbine
+
+// Calculation
+// (a)
+// From the steam tables
+s_1=7.0757;// kJ/kg.K
+s_2=s_1;// kJ/kg.K
+T_2=225.2;// °C
+h_1=3858.4;// kJ/kg
+h_2=2904.1;// kJ/kg
+w_a=h_1-h_2;// kJ/kg
+T_0=298;// K
+w_rev=(h_1-h_2)-(T_0*(s_2-s_1));// kJ/kg
+i=w_rev-w_a;// The irreversibility for an ideal turbine in kJ/kg
+printf("\n(a)The reversible work,w_rev=%3.1f kJ/kg \n The irreversibility for an ideal turbine,i=%0.1f kJ/kg",w_rev,i);
+// (b)
+w_ideal=w_rev;// kJ/kg
+w_a=n_T*w_ideal;// The actual work in kJ/kg
+h_2=h_1-w_a;// kJ/kg
+// From the steam tables
+T_2=279.4;// °C
+s_2=7.2946;// kJ/kg
+w_rev=(h_1-h_2)-(T_0*(s_1-s_2));// kJ/kg
+n_II=w_a/w_rev;// The second law efficiency
+i=w_rev-w_a;// The irreversibility in kJ/kg
+printf("\n(b)The reversible work,w_rev=%3.0f kJ/kg \n The irreversibility,i=%2.1f kJ/kg \n The second law efficiency,n_II=%0.3f.",w_rev,i,n_II);
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