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+{

+ "metadata": {

+  "name": "",

+  "signature": "sha256:fb635a7892259910462c375c5cd6000ddf39095d8593a85d6b876d44f34c4760"

+ },

+ "nbformat": 3,

+ "nbformat_minor": 0,

+ "worksheets": [

+  {

+   "cells": [

+    {

+     "cell_type": "heading",

+     "level": 1,

+     "metadata": {},

+     "source": [

+      "Chapter 12 - Non steady flow, friction and availability"

+     ]

+    },

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Example 1 - Pg 210"

+     ]

+    },

+    {

+     "cell_type": "code",

+     "collapsed": false,

+     "input": [

+      "#calculate the work done\n",

+      "#Initialization of variables\n",

+      "p1=100 #psia\n",

+      "p2=14.7 #psia\n",

+      "k=1.4\n",

+      "T1=700 #R\n",

+      "R=10.73/29.\n",

+      "V=50\n",

+      "cv=0.171\n",

+      "cp=0.24\n",

+      "R2=1.986/29.\n",

+      "#calculations\n",

+      "T2=T1/ (p1/p2)**((k-1)/k)\n",

+      "m1=p1*V/(R*T1)\n",

+      "m2=p2*V/(R*T2)\n",

+      "Wrev= cv*(m1*T1 - m2*T2) - (m1-m2)*(T2)*cp\n",

+      "#results\n",

+      "print '%s %d %s' %(\"Work done in case 1 =\",Wrev,\"Btu\")\n"

+     ],

+     "language": "python",

+     "metadata": {},

+     "outputs": [

+      {

+       "output_type": "stream",

+       "stream": "stdout",

+       "text": [

+        "Work done in case 1 = 572 Btu\n"

+       ]

+      }

+     ],

+     "prompt_number": 1

+    },

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Example 2 - Pg 212"

+     ]

+    },

+    {

+     "cell_type": "code",

+     "collapsed": false,

+     "input": [

+      "#calculate the Engine efficiency and Effectiveness\n",

+      "#Initialization of variables\n",

+      "p1=400 #psia\n",

+      "t1=600 #F\n",

+      "h1=1306.9 #Btu/lbm\n",

+      "b1=480.9 #Btu/lbm\n",

+      "p2=50 #psia\n",

+      "h2=1122 #Btu/lbm\n",

+      "h3=1169.5 #Btu/lbm\n",

+      "b3=310.9 #Btu/lbm\n",

+      "#calculations\n",

+      "print '%s' %(\"All the values are obtained from Mollier chart,\")\n",

+      "dw13=h1-h3\n",

+      "dw12=h1-h2\n",

+      "dasf=b3-b1\n",

+      "etae=dw13/dw12*100\n",

+      "eta=abs(dw13/dasf)*100\n",

+      "dq=dw13+dasf\n",

+      "#results\n",

+      "print '%s %.1f %s' %(\"Engine efficiency =\",etae,\" percent\")\n",

+      "print '%s %.1f %s' %(\"\\n Effectiveness =\",eta,\" percent\")\n",

+      "print '%s %.1f %s' %(\"\\n Loss of available energy  =\",dq,\" Btu/lbm\")\n"

+     ],

+     "language": "python",

+     "metadata": {},

+     "outputs": [

+      {

+       "output_type": "stream",

+       "stream": "stdout",

+       "text": [

+        "All the values are obtained from Mollier chart,\n",

+        "Engine efficiency = 74.3  percent\n",

+        "\n",

+        " Effectiveness = 80.8  percent\n",

+        "\n",

+        " Loss of available energy  = -32.6  Btu/lbm\n"

+       ]

+      }

+     ],

+     "prompt_number": 2

+    },

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Example 3 - Pg 214"

+     ]

+    },

+    {

+     "cell_type": "code",

+     "collapsed": false,

+     "input": [

+      "#calculate the friction of the process per pound of air\n",

+      "#Initialization of variables\n",

+      "p1=100. #psia\n",

+      "p2=10. #psia\n",

+      "n=1.3\n",

+      "T1=800. #R\n",

+      "cv=0.172\n",

+      "R=1.986/29\n",

+      "#calculations\n",

+      "T2=T1*(p2/p1)**((n-1)/n)\n",

+      "dwir=cv*(T1-T2)\n",

+      "dwr=R*(T2-T1)/(1-n)\n",

+      "dq=dwr-dwir\n",

+      "#results\n",

+      "print '%s %.1f %s' %(\"The friction of the process per pound of air =\",dq,\" Btu/lbm\")\n"

+     ],

+     "language": "python",

+     "metadata": {},

+     "outputs": [

+      {

+       "output_type": "stream",

+       "stream": "stdout",

+       "text": [

+        "The friction of the process per pound of air = 18.6  Btu/lbm\n"

+       ]

+      }

+     ],

+     "prompt_number": 3

+    },

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Example 4 - Pg 215"

+     ]

+    },

+    {

+     "cell_type": "code",

+     "collapsed": false,

+     "input": [

+      "#Calculate the Friction\n",

+      "#Initialization of variables\n",

+      "ms=10 #lbm\n",

+      "den=62.3 #lbm/ft^3\n",

+      "A1=0.0218 #ft^2\n",

+      "A2=0.00545 #ft^2\n",

+      "p2=50. #psia\n",

+      "p1=100. #psia\n",

+      "gc=32.2 #ft/s^2\n",

+      "dz=30. #ft\n",

+      "#calculations\n",

+      "V1=ms/(A1*den)\n",

+      "V2=ms/(A2*den)\n",

+      "df=-144./den*(p2-p1) - (V2**2 -V1**2)/(2*gc) - dz\n",

+      "#results\n",

+      "print '%s %.1f %s' %(\"Friction =\",df,\"ft-lbf/lbm\")\n"

+     ],

+     "language": "python",

+     "metadata": {},

+     "outputs": [

+      {

+       "output_type": "stream",

+       "stream": "stdout",

+       "text": [

+        "Friction = 72.9 ft-lbf/lbm\n"

+       ]

+      }

+     ],

+     "prompt_number": 4

+    }

+   ],

+   "metadata": {}

+  }

+ ]

+}
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