{ "metadata": { "name": "", "signature": "sha256:260bb8beffe2e4d2155fdaec0c7462f8cf5127d60c79f0bddb469ea9aad62673" }, "nbformat": 3, "nbformat_minor": 0, "worksheets": [ { "cells": [ { "cell_type": "heading", "level": 1, "metadata": {}, "source": [ "Chapter 26: Neutral Grounding" ] }, { "cell_type": "heading", "level": 3, "metadata": {}, "source": [ "Example 26.1, Page Number: 599" ] }, { "cell_type": "code", "collapsed": false, "input": [ "from __future__ import division\n", "import math\n", "\n", "#Variable declaration:\n", "f = 50 #Supply frequency(Hz)\n", "C = 4.5*10**-6 #Line to earth capacitance(F)\n", "\n", "\n", "#Calculation:\n", "XL = 1/(3*2*math.pi*f*C) #ohm\n", "\n", "\n", "#Result:\n", "print \"The reactance of Peterson coil is\",round(XL,1),\"ohm\"" ], "language": "python", "metadata": {}, "outputs": [ { "output_type": "stream", "stream": "stdout", "text": [ "The reactance of Peterson coil is 235.8 ohm\n" ] } ], "prompt_number": 1 }, { "cell_type": "heading", "level": 3, "metadata": {}, "source": [ "Example 26.2, Page Number: 599" ] }, { "cell_type": "code", "collapsed": false, "input": [ "from __future__ import division\n", "import math\n", "\n", "#Variable declaration:\n", "l = 200 #length of transmission line(km)\n", "f = 50 #Supply frequency(Hz)\n", "c = 0.02*10**-6 #Line to earth capacitance(F/km)\n", "V = 230 #voltage rating of line(kV)\n", "\n", "\n", "#Calculation:\n", "C = c*l #capacitance of coil(F)\n", "L = round(1/(3*(2*3.14*f)**2*C),2) #Required inductance of Peterson coil(H)\n", "Vph = round(V*1000/1.732) #Voltage across Peterson coil(kV)\n", "IF = math.ceil(Vph/(2*3.13*f*L)) #Current through Peterson coil(A)\n", "kVA = Vph*IF/1000 #Rating of Peterson coil\n", "\n", "\n", "\n", "#Calculation:\n", "print \"Inductance of Peterson coil is\",L,\"H\"\n", "print \"Rating of Peterson coil is\",round(kVA),\"kVA\"" ], "language": "python", "metadata": {}, "outputs": [ { "output_type": "stream", "stream": "stdout", "text": [ "Inductance of Peterson coil is 0.85 H\n", "Rating of Peterson coil is 66397.0 kVA\n" ] } ], "prompt_number": 4 }, { "cell_type": "heading", "level": 3, "metadata": {}, "source": [ "Example 26.3, Page Number: 600" ] }, { "cell_type": "code", "collapsed": false, "input": [ "from __future__ import division\n", "import math\n", "\n", "#Variable declaration:\n", "f = 50 #fequency of supply(Hz)\n", "C = 1.2*10**-6 #line-to-earth capacitance(F)\n", "\n", "\n", "#Calculation:\n", "#(i) To neutralize capacitance of 100% of the length of the line,\n", "#Inductive reactance of the coilis given by\n", "XL1 = 1/(3*2*math.pi*f*C) #ohm\n", "\n", "#(ii) To neutralize capacitance of 90% of the length of the line,\n", "#Inductive reactance of the coilis given by\n", "XL2 = 1/(3*2*math.pi*f*0.9*C) #ohm\n", "\n", "\n", "#(iii) To neutralize capacitance of 80% of the length of the line,\n", "#Inductive reactance of the coilis given by\n", "XL3 = 1/(3*2*math.pi*f*0.8*C) #ohm\n", "\n", "\n", "#Result:\n", "print \"(i) Inductive reactance of the coil to neutralize capacitance\"\n", "print \" of 100% of the length of the line is\",round(XL1,2),\"ohm\"\n", "print \"\\n(ii) Inductive reactance of the coil to neutralize capacitance\"\n", "print \" of 100% of the length of 90% of the line is\",round(XL2,2),\"ohm\"\n", "print \"\\n(iii)Inductive reactance of the coil to neutralize capacitance\"\n", "print \" of 100% of the length of 80% of the line is\",round(XL3,2),\"ohm\"" ], "language": "python", "metadata": {}, "outputs": [ { "output_type": "stream", "stream": "stdout", "text": [ "(i) Inductive reactance of the coil to neutralize capacitance\n", " of 100% of the length of the line is 884.19 ohm\n", "\n", "(ii) Inductive reactance of the coil to neutralize capacitance\n", " of 100% of the length of 90% of the line is 982.44 ohm\n", "\n", "(iii)Inductive reactance of the coil to neutralize capacitance\n", " of 100% of the length of 80% of the line is 1105.24 ohm\n" ] } ], "prompt_number": 5 }, { "cell_type": "heading", "level": 3, "metadata": {}, "source": [ "Example 26.4, Page Number: 600" ] }, { "cell_type": "code", "collapsed": false, "input": [ "from __future__ import division\n", "import math\n", "\n", "#Variable declaration:\n", "r = 0.01 #radius of conductor(m)\n", "d = 4 #conductor spacing(m)\n", "V = 132 #voltage of the line(kV)\n", "f = 50 #supply frequency(Hz)\n", "l = 200 #line length(km)\n", "\n", "\n", "#Calculation:\n", "c = round(2*math.pi*8.885/math.log(d/r),1)*10**-12 #capacitance per unit length(F/m)\n", "C = c*l*1000 #Capacitance between phase and earth for 200 km line(F)\n", "L = round(1/(3*(2*math.pi*f)**2*C),2) #required inductance L of the arc suppression coil(H)\n", "IF = V*1000/(10*math.ceil(3**0.5*2*math.pi*f*L/10)) #Current through the coil(A)\n", "kVA = V/3**0.5*IF #kVA\n", "\n", "\n", "#Result:\n", "print \"The inductance of the coil is\",L,\"H\"\n", "print \"Rating of the coil is\",round(kVA),\"kVA\"" ], "language": "python", "metadata": {}, "outputs": [ { "output_type": "stream", "stream": "stdout", "text": [ "The inductance of the coil is 1.82 H\n", "Rating of the coil is 10060.0 kVA\n" ] } ], "prompt_number": 6 } ], "metadata": {} } ] }