{ "metadata": { "celltoolbar": "Raw Cell Format", "name": "", "signature": "sha256:4b26d5a062c7df178b102bcb49ca0f8363642f2c290f44d66b774e90f3dc8f59" }, "nbformat": 3, "nbformat_minor": 0, "worksheets": [ { "cells": [ { "cell_type": "heading", "level": 1, "metadata": {}, "source": [ "SAMPLE EXAMPLE 1" ] }, { "cell_type": "heading", "level": 2, "metadata": {}, "source": [ "EXAMPLE 2.18.1" ] }, { "cell_type": "code", "collapsed": false, "input": [ "import math\n", "W1=12.5;#CaCO3 in water in mg/lit#\n", "W2=8.4;#MgCO3 in water in mg/lit#\n", "W3=22.2;#CaCl2 in water in mg/lit#\n", "W4=9.5;#MgCl2 in water in mg/lit#\n", "W5=33;#CO2 in water in mg/lit#\n", "W6=6.68;#NaHCO3 in water in mg/lit#\n", "M1=100.0/100.0;#multiplication factor of CaCO3#\n", "M2=100.0/84;#multiplication factor of MgCO3#\n", "M3=100.0/111;#multiplication factor of CaCl2#\n", "M4=100.0/95;#multiplication factor of MgCl2#\n", "M6=100.0/84;#multiplication factor of NaHCO3#\n", "P1=W1*M1;#CaCO3 in terms of CaCO3#\n", "P2=W2*M2;#MgCO3 in terms of CaCO3#\n", "P3=W3*M3;#CaCl2 in terms of CaCO3#\n", "P4=W4*M4;#MgCl2 in terms of CaCO3#\n", "P6=W6*M6;#NaHCO3 in terms of CaCO3#\n", "print\"We do not take CO2 since it does not contribute to hardness \" ;\n", "C=P1+P2+P6;\n", "print\" Carbonate hardness is\",C,\"mg/l or ppm\";\n", "NC=P3+P4;\n", "print\" Non Carbonate hardness is\",NC,\"mg/l or ppm\";" ], "language": "python", "metadata": {}, "outputs": [ { "output_type": "stream", "stream": "stdout", "text": [ "We do not take CO2 since it does not contribute to hardness \n", " Carbonate hardness is 30.4523809524 mg/l or ppm\n", " Non Carbonate hardness is 30.0 mg/l or ppm\n" ] } ], "prompt_number": 15 }, { "cell_type": "heading", "level": 2, "metadata": {}, "source": [ "EXAMPLE 2.18.2" ] }, { "cell_type": "code", "collapsed": false, "input": [ "import math\n", "W1=40.5;\n", "W2=33.3;\n", "W3=41;\n", "W4=101;\n", "W5=33.6;\n", "M1=100.0/162;\n", "M2=100.0/111;\n", "M3=100.0/164;\n", "M5=100.0/84;\n", "P1=W1*M1;\n", "P2=W2*M2;\n", "P3=W3*M3;\n", "P5=W5*M5;\n", "print \"We do not take KNO3 since it does not contribute to hardness \"\n", "C=P1+P5;\n", "print \"Carbonate hardness is\",C,\" mg/l or ppm\"\n", "NC=P2+P3;\n", "print \"Non Carbonate hardness is\",NC,\" mg/l or ppm\"" ], "language": "python", "metadata": {}, "outputs": [ { "output_type": "stream", "stream": "stdout", "text": [ "We do not take KNO3 since it does not contribute to hardness \n", "Carbonate hardness is 65.0 mg/l or ppm\n", "Non Carbonate hardness is 55.0 mg/l or ppm\n" ] } ], "prompt_number": 14 }, { "cell_type": "heading", "level": 2, "metadata": {}, "source": [ "EXAMPLE 2.18.3" ] }, { "cell_type": "code", "collapsed": false, "input": [ "import math\n", "W1=29.1;#Mg(HCO3 2 in water in mg/lit#\n", "W2=40.5;#Ca(HCO3 2 in water in mg/lit#\n", "W3=11.1;#CaCl2 in water in mg/lit#\n", "W4=15.82;#MgCl2 in water in mg/lit#\n", "W5=28.5;#NaCl in water in mg/lit#\n", "W6=22.0;#CO2 in water in mg/lit#\n", "M1=100.0/146.007;#multiplication factor of Mg(HCO3 2#\n", "M2=100.0/162;#multiplication factor of Ca(HCO3 2#\n", "M3=100.0/111;#multiplication factor of CaCl2#\n", "M4=100.0/95.005;#multiplication factor of MgCl2#\n", "P1=W1*M1;#Mg(HCO3 2 in terms of CaCO3#\n", "P2=W2*M2;#Ca(HCO3 2 in terms of CaCO3#\n", "P3=W3*M3;#CaCl2 in terms of CaCO3#\n", "P4=W4*M4;#MgCl2 in terms of CaCO3#\n", "print\"We do not take NaCl and CO2 since they do not contribute to hardness \" ;\n", "C=P1+P2;\n", "print\" Carbonate hardness is\",C,\"mg/l or ppm\";\n", "NC=P3+P4;\n", "print\" Non Carbonate hardness is\",NC,\"mg/l or ppm\";" ], "language": "python", "metadata": {}, "outputs": [] }, { "cell_type": "heading", "level": 2, "metadata": {}, "source": [ "EXAMPLE 2.18.4" ] }, { "cell_type": "code", "collapsed": false, "input": [ "import math\n", "W1=16.2;#Ca(HCO3 2 in water in mg/lit#\n", "W2=14.6;#Mg(HCO3 2 in water in mg/lit#\n", "W3=9.5;#MgCl2 in water in mg/lit#\n", "W4=48;#MgSO4 in water in mg/lit#\n", "W5=12;#KCl in water in mg/lit#\n", "M1=100.0/162;#multiplication factor of Ca(HCO3 2#\n", "M2=100.0/146;#multiplication factor of Mg(HCO3 2 #\n", "M3=100.0/95;#multiplication factor of MgCl2#\n", "M4=100.0/120;#multiplication factor of MgSO4#\n", "P1=W1*M1;#Ca(HCO3 2 in terms of CaCO3#\n", "P2=W2*M2;#Mg(HCO3 2 in terms of CaCO3#\n", "P3=W3*M3;#MgCl2 in terms of CaCO3#\n", "P4=W4*M4;#MgSO4 in terms of CaCO3#\n", "print\"We do not take KCl since it does not contribute to hardness \" ;\n", "C=P1+P2;\n", "print\" Carbonate hardness is\",C,\"mg/l or ppm\";\n", "NC=P3+P4;\n", "print\" Non Carbonate hardness is\",NC,\"mg/l or ppm\";" ], "language": "python", "metadata": {}, "outputs": [] }, { "cell_type": "heading", "level": 2, "metadata": {}, "source": [ "EXAMPLE 2.18.5" ] }, { "cell_type": "code", "collapsed": false, "input": [ "import math\n", "W1=16.2;#Ca(HCO3 2 in water in mg/lit#\n", "W2=14.6;#Mg(HCO3 2 in water in mg/lit#\n", "W3=9.5;#MgCl2 in water in mg/lit#\n", "W4=48;#MgSO4 in water in mg/lit#\n", "W5=12;#KCl in water in mg/lit#\n", "M1=100.0/162;#multiplication factor of Ca(HCO3 2#\n", "M2=100.0/146;#multiplication factor of Mg(HCO3 2 #\n", "M3=100.0/95;#multiplication factor of MgCl2#\n", "M4=100.0/120;#multiplication factor of MgSO4#\n", "P1=W1*M1;#Ca(HCO3 2 in terms of CaCO3#\n", "P2=W2*M2;#Mg(HCO3 2 in terms of CaCO3#\n", "P3=W3*M3;#MgCl2 in terms of CaCO3#\n", "P4=W4*M4;#MgSO4 in terms of CaCO3#\n", "print\"We do not take KCl since it does not contribute to hardness \" ;\n", "C=P1+P2;\n", "print\" Carbonate hardness is\",C,\"mg/l or ppm\";\n", "NC=P3+P4;\n", "print\" Non Carbonate hardness is\",NC,\"mg/l or ppm\";" ], "language": "python", "metadata": {}, "outputs": [ { "output_type": "stream", "stream": "stdout", "text": [ "We do not take KCl since it does not contribute to hardness \n", " Carbonate hardness is 20.0 mg/l or ppm\n", " Non Carbonate hardness is 50.0 mg/l or ppm\n" ] } ], "prompt_number": 16 }, { "cell_type": "code", "collapsed": false, "input": [], "language": "python", "metadata": {}, "outputs": [] } ], "metadata": {} } ] }