{ "metadata": { "name": "" }, "nbformat": 3, "nbformat_minor": 0, "worksheets": [ { "cells": [ { "cell_type": "heading", "level": 1, "metadata": {}, "source": [ "Chapter 14: Gas\u2013Vapor Mixtures and Air-Conditioning" ] }, { "cell_type": "heading", "level": 2, "metadata": {}, "source": [ "Example 14-1 ,Page No.720" ] }, { "cell_type": "code", "collapsed": false, "input": [ "#given data\n", "V=5*5*3.0;#volume of the room in m^3\n", "RH=0.75;#relative humidity\n", "P=100.0;#pressure of air in kPa\n", "T=25.0;#temperature of air in C\n", "\n", "#constants used\n", "Ra=0.287;#in kPa.m^3 / kg.k\n", "Rv=0.4615;#in kPa.m^3 / kg.k\n", "\n", "#from Table A-2a and A-4\n", "cp=1.005;\n", "Psat=3.1698;\n", "hg=2564.6;\n", "\n", "#calculation\n", "Pv=RH*Psat;\n", "Pa=P-Pv;\n", "w=0.622*Pv/(P-Pv);\n", "h=cp*T+w*hg;\n", "ma=V*Pa/(Ra*(T+273));\n", "mv=V*Pv/(Rv*(T+273));\n", "print'the partial pressure of dry air %f kPa'%round(Pa,2);\n", "print'the specific humidity %f kg water/kg of dry air'%round(w,4);\n", "print'the enthalpy per unit mass of the dry air %f kJ'%round(h,1);\n", "print'mass of air %f kg'%round(ma,2);\n", "print'mass of water vapour %f kg'%round(mv,1);\n" ], "language": "python", "metadata": {}, "outputs": [ { "output_type": "stream", "stream": "stdout", "text": [ "the partial pressure of dry air 97.620000 kPa\n", "the specific humidity 0.015100 kg water/kg of dry air\n", "the enthalpy per unit mass of the dry air 64.000000 kJ\n", "mass of air 85.610000 kg\n", "mass of water vapour 1.300000 kg\n" ] } ], "prompt_number": 2 }, { "cell_type": "heading", "level": 2, "metadata": {}, "source": [ "Example 14-2 ,Page No.722" ] }, { "cell_type": "code", "collapsed": false, "input": [ "#given data\n", "T=20;#temperature of air in C\n", "RH=0.75;#relative humidity\n", "\n", "#from Table A-4\n", "Psat=2.3392;\n", "Pv=RH*Psat;\n", "#thus at this from Eq 14-13\n", "Tdp=15.4;\n", "print'window temperature %f C'%Tdp" ], "language": "python", "metadata": {}, "outputs": [ { "output_type": "stream", "stream": "stdout", "text": [ "window temperature 15.400000 C\n" ] } ], "prompt_number": 3 }, { "cell_type": "heading", "level": 2, "metadata": {}, "source": [ "Example 14-3 ,Page No.725" ] }, { "cell_type": "code", "collapsed": false, "input": [ "#given data\n", "T1=25.0;#dry bulb temperature in K\n", "T2=15.0;#wet bulb temperature in K\n", "P2=101.325;#pressure of air in kPa\n", "\n", "#from Table A-2a & A-4\n", "#at T1\n", "Psat1=3.1698;\n", "hg1=2546.5;\n", "#at T2\n", "Psat2=1.7057;\n", "hfg2=2465.4;\n", "hf2=62.982;\n", "cp=1.005;\n", "\n", "#calculations\n", "w2=0.622*Psat2/(P2-Psat2);\n", "w1=(cp*(T2-T1)+w2*hfg2)/(hg1-hf2);\n", "print'the specific humidity %f kg water/kg of dry air'%round(w1,5);\n", "RH1=w1*P2/((0.622+w1)*Psat1);\n", "print'the relative humidity is %f'%round(RH1,3);\n", "h=cp*T1+w1*hg1;\n", "print'the enthalpy of the air %f kJ/kg of dry air'%round(h,1)" ], "language": "python", "metadata": {}, "outputs": [ { "output_type": "stream", "stream": "stdout", "text": [ "the specific humidity 0.006530 kg water/kg of dry air\n", "the relative humidity is 0.332000\n", "the enthalpy of the air 41.700000 kJ/kg of dry air\n" ] } ], "prompt_number": 5 }, { "cell_type": "heading", "level": 2, "metadata": {}, "source": [ "Example 14-5 ,Page No.731" ] }, { "cell_type": "code", "collapsed": false, "input": [ "#given data\n", "RH1=0.3;#outdoor relative humidity\n", "P1=100.0;#pressure of air in kPa\n", "V1=45.0;#volumetric steady rate in m^3/min\n", "T1=10.0;#outdoor temperature in C\n", "T2=22.0;#first heated temperature in C\n", "RH3=0.6;#final relative humidity \n", "T3=25.0;#final temperature in C\n", "\n", "#from Table A-2a & A-4\n", "cp=1.005;\n", "Ra=0.287;\n", "Pg1=1.2281;\n", "hg1=2519.2;\n", "hg2=2541.0;\n", "Pg3=3.1698;\n", "\n", "#calculations\n", "Pv1=RH1*Pg1;\n", "Pa1=P1-Pv1;\n", "v1=Ra*(T1+273)/Pa1;\n", "ma=V1/v1;\n", "w1=0.622*Pv1/(P1-Pv1);\n", "h1=cp*T1+w1*hg1;\n", "h1=round(h1,1);\n", "w2=w1;\n", "h2=cp*T2+w2*hg2;\n", "h2=round(h2)\n", "Q=ma*(h2-h1);\n", "# ma2*w2 + mw = ma3*w3\n", "#which reduces to mw = ma * (w3 - w2)\n", "w3=0.622*RH3*Pg3/(P1-(RH3*Pg3));\n", "mw=ma*(w3-w2);\n", "print'the rate of heat supply in the heating section %f kJ/min'%round(Q);\n", "print'the mass flow rate of the steam required in the humidifying section %f kg/min'%round(mw,3)" ], "language": "python", "metadata": {}, "outputs": [ { "output_type": "stream", "stream": "stdout", "text": [ "the rate of heat supply in the heating section 673.000000 kJ/min\n", "the mass flow rate of the steam required in the humidifying section 0.539000 kg/min\n" ] } ], "prompt_number": 17 }, { "cell_type": "heading", "level": 2, "metadata": {}, "source": [ "Example 14-6 ,Page No.733" ] }, { "cell_type": "code", "collapsed": false, "input": [ "#given data\n", "V1=10;#volumertric rate in m^3/min\n", "T1=30;#intial temperature in C\n", "RH1=0.8;#intial relative humidity\n", "T2=14;#final temperature in C\n", "RH2=1;#final relative humidity\n", "\n", "#from Table A-4\n", "hw=58.8;\n", "h1=85.4;\n", "h2=39.3;\n", "w1=0.0216;\n", "w2=0.0100;\n", "v1=0.889;\n", "\n", "#calculations\n", "#mw= ma*(w1-w2)\n", "#Qout=ma*(h1-h2) - mw*hw\n", "ma=V1/v1;\n", "mw= ma*(w1-w2);\n", "Qout=ma*(h1-h2) - mw*hw;\n", "print'rates of moisture removal from the air %f kg/min'%round(mw,3);\n", "print'rate of moisture removal from the air %i kJ/min'%round(Qout);\n" ], "language": "python", "metadata": {}, "outputs": [ { "output_type": "stream", "stream": "stdout", "text": [ "rates of moisture removal from the air 0.130000 kg/min\n", "rate of moisture removal from the air 511 kJ/min\n" ] } ], "prompt_number": 18 }, { "cell_type": "heading", "level": 2, "metadata": {}, "source": [ "Example 14-8 ,Page No.736" ] }, { "cell_type": "code", "collapsed": false, "input": [ "#given values\n", "V1=50;#saturated air volumertric rate in m^3/min\n", "T1=14;#saturated air temperature in C\n", "V2=20;#outside air volumertric rate in m^3/min\n", "T2=32;#outside air temperature in C\n", "RH2=60;#outside air relative humidity\n", "\n", "#from psychrometric chart\n", "h1=39.4;\n", "w1=0.010;\n", "v1=0.826;\n", "h2=79;\n", "w2=0.0182;\n", "v2=0.889;\n", "\n", "#calculations\n", "ma1=V1/v1;\n", "ma2=V2/v2;\n", "ma3=ma1+ma2;\n", "#from Eq 14-24\n", "w3=(w2*ma2+w1*ma1)/(ma1+ma2);\n", "h3=(h2*ma2+h1*ma1)/(ma1+ma2);\n", "print'the specific humidity %f kg of water/kg of dry air'%round(w3,3);\n", "#from psychrometric chart\n", "T3=19;\n", "RH3=0.89;\n", "v3=0.844;\n", "V3=ma3*v3;\n", "print'the dry-bulb temperature %f C'%T3;\n", "print'the relative humidity is %f'%RH3\n", "print'the volume flow rate of the mixture %f m^3/min'%round(V3,1)" ], "language": "python", "metadata": {}, "outputs": [ { "output_type": "stream", "stream": "stdout", "text": [ "the specific humidity 0.012000 kg of water/kg of dry air\n", "the dry-bulb temperature 19.000000 C\n", "the relative humidity is 0.890000\n", "the volume flow rate of the mixture 70.100000 m^3/min\n" ] } ], "prompt_number": 20 }, { "cell_type": "heading", "level": 2, "metadata": {}, "source": [ "Example 14-9 ,Page No.738" ] }, { "cell_type": "code", "collapsed": false, "input": [ "#given data \n", "m=100;#mass flow rate in kg/s\n", "T1=20;#entry temperature in C\n", "P1=1;#entry pressure im kPa\n", "RH1=60;#entry relative humidity\n", "T2=30;#exit temperature in C\n", "RH2=1;#exit relative humidity\n", "T3=35;#entry tempearture of wet cooling tower in C \n", "T4=22;#water temperature in cooling tower in C\n", "\n", "#from Table A-4\n", "h1=42.2;\n", "w1=0.0087;\n", "v1=0.842;\n", "h2=100;\n", "w2=0.0273;\n", "h3=146.64;\n", "h4=92.28;\n", "\n", "#calculations\n", "#Dry air balane = ma1 = ma2 = ma\n", "#Water balance = m3 - m4 = ma*(w2 - w1)\n", "#Energy balance = ma1*h1 + m3*h3 = ma2*h2 + m4*h4\n", "ma= m*(h3-h4)/(h2-h1-(w2-w1)*h4);\n", "V1=ma*v1;\n", "mmakeup=ma*(w2-w1);\n", "print'the volume flow rate of air into the cooling tower %f m^3/s'%round(V1,1);\n", "print'the mass flow rate of the required makeup water %f kg/s'%round(mmakeup,2)\n" ], "language": "python", "metadata": {}, "outputs": [ { "output_type": "stream", "stream": "stdout", "text": [ "the volume flow rate of air into the cooling tower 81.600000 m^3/s\n", "the mass flow rate of the required makeup water 1.800000 kg/s\n" ] } ], "prompt_number": 22 } ], "metadata": {} } ] }