From 7f60ea012dd2524dae921a2a35adbf7ef21f2bb6 Mon Sep 17 00:00:00 2001 From: prashantsinalkar Date: Tue, 10 Oct 2017 12:27:19 +0530 Subject: initial commit / add all books --- 1808/CH3/EX3.27/Chapter3_Exampl27.sce | 38 +++++++++++++++++++++++++++++++++++ 1 file changed, 38 insertions(+) create mode 100644 1808/CH3/EX3.27/Chapter3_Exampl27.sce (limited to '1808/CH3/EX3.27') diff --git a/1808/CH3/EX3.27/Chapter3_Exampl27.sce b/1808/CH3/EX3.27/Chapter3_Exampl27.sce new file mode 100644 index 000000000..cc18c4b24 --- /dev/null +++ b/1808/CH3/EX3.27/Chapter3_Exampl27.sce @@ -0,0 +1,38 @@ +clc +clear +//INPUT DATA +l=22;//Stroke in cm +d=15;//Bore in cm +Rc=10;//compression ratio +p1=101.325;//Pressure in kN/m^2 +t1=303;//temperature in K +g=1.4;//constnat +cp=1.005;//specific pressure +cv=0.718;//specific volumespecific volume +R=0.287;//gas constant +n=1.3;//no of flows +v1=0.00433;//volume in m^3 + +//CALCULATIONS +t2=t1*(Rc^(g-1));//Temperature in K +p2=p1*(Rc^g);//pressure in kN/m^2 +ro=Rc/6;//cutoff ratio +t3=1133.5;//temperature in K +t4=(Rc/6)*t3;//temperature in K +wd=3.43;//workdone per cycle in kN/m +p3=p2*t3/t2;//pressure in kN/m^2 +p5=p3*(1/6)^n;//pressure in kN/m^2 +pm=((p3*(ro-1))+((p3*ro-p5*Rc)-(p2-p1*Rc))*(1/(n-1)))/(Rc-1);//mean effective pressure in kN/m^2 +pm1=pm/100;//mean effective pressure in bar +vs=3.14*d^2*l/4;//stroke volume in m^3 +m=p1*v1/(R*t1);//mass flow rate in kg/s +Qs=m*((cv*(t3-t2))+cp*(t4-t3));//heat supplied in kJ/cycle +nd=(wd/Qs)*100;//thermal efficiency in percentage +p=wd*400/60;//power of the engine in kJ/s +Rw=((p3*(ro-1))+(1/(n-1))*((p3*ro-p5*Rc)-(p2-p1*Rc)))/((p3*(ro-1))+(1/(n-1))*(p3*ro-p5*Rc));//work ratio + +//OUTPUT +printf('(a)The temperature and pressure are \n p2 %3.2f kN/m^2 \n p3 %3.2f kN/m^2 \n p5 %3.2f kN/m^2 \n t2 %3.2f K \n t3 %3.2f K \n t4 %3.2f K \n (b)mean effective pressure is %3.2f bar \n (c)thermal efficiency is %3.2f percentage \n (d)power of the engine is %3.2f kJ/s \n (e)The work ratio is %3.1f ',p2,p3,p5,t2,t3,t4,pm1,nd,p,Rw) + + + -- cgit