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| author | prashantsinalkar | 2017-10-10 12:27:19 +0530 |
|---|---|---|
| committer | prashantsinalkar | 2017-10-10 12:27:19 +0530 |
| commit | 7f60ea012dd2524dae921a2a35adbf7ef21f2bb6 (patch) | |
| tree | dbb9e3ddb5fc829e7c5c7e6be99b2c4ba356132c /3751/CH4/EX4.10/Ex4_10.sce | |
| parent | b1f5c3f8d6671b4331cef1dcebdf63b7a43a3a2b (diff) | |
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initial commit / add all books
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diff --git a/3751/CH4/EX4.10/Ex4_10.sce b/3751/CH4/EX4.10/Ex4_10.sce new file mode 100644 index 000000000..19732303c --- /dev/null +++ b/3751/CH4/EX4.10/Ex4_10.sce @@ -0,0 +1,51 @@ +//Fluid system - By - Shiv Kumar
+//Chapter 4 - Pelton Turbine (Impulse Turbine)
+//Example 4.10
+ clc
+ clear
+
+//Given Data:-
+ N=300; //Speed of runner, rpm
+ H=510; //Head, m
+ d=200; //Diameter of the Jet, mm
+ AoD=165; //Angle of Deflection, degrees
+ Vel_per=15; //percentage by which velocity is reduced
+
+//Data Used:-
+ rho=1000; //Density of water, kg/m^3
+ g=9.81; //Acceleration due to gravity, m/s^2
+ Cv=0.98;
+ Ku=0.46;
+
+//Computations:-
+ d=d/1000; //m
+ beta_O=180-AoD; //degrees
+ Vro_by_Vri=1-Vel_per/100; //Vro/Vri
+ Vi=Cv*sqrt(2*g*H); //m/s
+ Vwi=Vi;
+ ui=Ku*sqrt(2*g*H); //m/s
+ uo=ui;
+ u=ui;
+ Vri=Vi-ui; //m/s
+ Vro=Vri*Vro_by_Vri; //m/s
+ Vrwo=Vro*cosd(beta_O); //m/s
+ Vwo=uo-Vrwo; //m/s
+
+ //(i) Water power available at inlet of turbine, P
+ Q=(%pi/4)*d^2*Vi; //m^3.s
+ P=(1/2)*rho*Q*Vi^2/1000; //kW
+ //(ii)Resultant force on the bucket, F
+ F=rho*Q*(Vwi-Vwo)/1000; //kN
+ //(iii)Overall Efficiency, eta_o
+ eta_H=F*u/P; //Hydraulic efficiency
+ //Assume,
+ eta_V=100/100; //Volumetric efficiency is 100%
+ eta_m=98/100 //Mechanical Efficiency is 98%
+
+ eta_O=eta_V*eta_H*eta_m*100; //In percentage
+
+//Results:-
+ printf("(i)Water power available at inlet of turbine=%.2f kW \n", P) //The answer provided in the Textbook is wrong
+ printf("(ii)Resultant force on the bucket, F=%.3f kN \n", F) //The answer vary due to round off error
+ printf("(iii)Overall efficiency, eta_O=%.2f percent", eta_O) //The answer vary due to round off error
+
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