Thermodynamics: An Engineering Approach ( 9th International Edition ) ISBN:9781260092684
Thermodynamics: An Engineering Approach ( 9th International Edition ) ISBN:9781260092684
9th Edition
ISBN: 9781260048667
Author: Yunus A. Cengel Dr.; Michael A. Boles
Publisher: McGraw-Hill Education
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Chapter 15.7, Problem 45P
To determine

The higher and lower heating values of a coal.

Expert Solution & Answer
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Answer to Problem 45P

The higher and lower heating values of a coal is 30,000kJ/kgand28,700kJ/kg respectively.

Explanation of Solution

Express the total mass of the coal when the ash is substituted.

mtotal=100mash (I)

Here, mass of ash is mash.

Express the mass fraction of carbon.

mfC=mCmtotal (II)

Here, mass of carbon is mC.

Express the mass fraction of hydrogen.

mfH2=mH2mtotal (III)

Here, mass of hydrogen is mH2.

Express the mass fraction of oxygen.

mfO2=mO2mtotal (IV)

Here, mass of oxygen is mO2.

Express the mass fraction of nitrogen.

mfN2=mN2mtotal (V)

Here, mass of nitrogen is mN2.

Express the mass fraction of sulphur.

mfS=mSmtotal (VI)

Here, mass of sulphur is mS.

Express the number of moles of carbon.

NC=mfCMC (VII)

Here, molar mass of carbon is MC.

Express the number of moles of hydrogen.

NH2=mfH2MH2 (VIII)

Here, molar mass of hydrogen is MH2.

Express the number of moles of oxygen.

NO2=mfO2MO2 (IX)

Here, molar mass of oxygen is MO2.

Express the number of moles of nitrogen.

NN2=mfN2MN2 (X)

Here, molar mass of nitrogen is MN2.

Express the number of moles of sulphur.

NS=mfSMS (XI)

Here, molar mass of sulphur is MS.

Express the total number of moles.

Nm=NC+NH2+NO2+NN2+NS (XII)

Express the mole fraction of carbon.

yC=NCNm (XIII)

Express the mole fraction of hydrogen.

yH2=NH2Nm (XIV)

Express the mole fraction of oxygen.

yO2=NO2Nm (XV)

Express the mole fraction of nitrogen.

yN2=NN2Nm (XVI)

Express the mole fraction of sulphur.

yS=NSNm (XVII)

Express the heat transfer from the combustion chamber.

q=hC=HPHR=NPh¯f,PoNRh¯f,Ro=(Nh¯fo)CO2+(Nh¯fo)H2O+(Nh¯fo)SO2 (XVIII)

Here, number of moles of products is NP, number of moles of reactants is NR, enthalpy of formation is h¯f, enthalpy of combustion is hC, enthalpy of products and reactants is HPandHR respectively.

Express apparent molecular weight of the coal.

Mm=mmNm=NCMC+NH2MH2+NO2MO2+NN2MN2+NSMSNC+NH2+NO2+NN2+NS (XIX)

Here, number of moles of carbon, hydrogen, oxygen, nitrogen and sulfur is NC,NH2,NO2,NN2andNS respectively.

Express higher value of coal.

HHV=hCmm=hCNCMC+NH2MH2+NO2MO2+NN2MN2+NSMS (XX)

Express lower value of coal.

LHV=hCmm=hCNCMC+NH2MH2+NO2MO2+NN2MN2+NSMS (XXI)

Conclusion:

Refer Table A-1, “molar mass, gas constant, and the critical point properties”, and write the molar masses.

MC=12kg/kmolMH2=2kg/kmolMO2=32kg/kmolMS=32kg/kmol

Mair=29kg/kmolMN2=28kg/kmol

Here, molar mass of air is Mair.

Substitute 5 for mash in Equation (I).

mtotal=1005=95kg

Substitute 61.40kg for mC and 95kg for mtotal in Equation (II).

mfC=61.40kg95kg=0.6463=64.63kg

Substitute 5.79kg for mH2 and 95kg for mtotal in Equation (III).

mfH2=5.79kg95kg=0.06095=6.095kg

Substitute 25.31kg for mO2 and 95kg for mtotal in Equation (IV).

mfO2=25.31kg95kg=0.2664=26.64kg

Substitute 1.09kg for mN2 and 95kg for mtotal in Equation (V).

mfN2=1.09kg95kg=0.01147=1.147kg

Substitute 1.41kg for mS and 95kg for mtotal in Equation (VI).

mfS=1.41kg95kg=0.01484=1.484kg

Substitute 64.63kg for mC and 12kg/kmol for MC in Equation (VII).

NC=64.63kg12kg/kmol=5.386kmol

Substitute 6.095kg for mH2 and 2kg/kmol for MH2 in Equation (VIII).

NH2=6.095kg2kg/kmol=3.048kmol

Substitute 26.64kg for mO2 and 32kg/kmol for MO2 in Equation (IX).

NO2=26.64kg32kg/kmol=0.8325kmol

Substitute 1.147kg for mN2 and 28kg/kmol for MN2 in Equation (X).

NN2=1.147kg28kg/kmol=0.04096kmol

Substitute 1.484kg for mS and 32kg/kmol for MS in Equation (XI).

NS=1.484kg32kg/kmol=0.04638kmol

Substitute 5.386kmol for NC, 3.048kmol for NH2, 0.8325kmol for NO2, 0.04096kmol for NN2 and 0.04638kmol for NS in Equation (XII).

Nm=5.386kmol+3.048kmol+0.8325kmol+0.04096kmol+0.04638kmol=9.354kmol

Substitute 5.386kmol for NC and 9.354kmol for Nm in Equation (XIII).

yC=5.386kmol9.354kmol=0.5758

Substitute 3.048kmol for NH2 and 9.354kmol for Nm in Equation (XIV).

yH2=3.048kmol9.354kmol=0.3258

Substitute 0.8325kmol for NO2 and 9.354kmol for Nm in Equation (XV).

yO2=0.8325kmol9.354kmol=0.0890

Substitute 0.04096kmol for NN2 and 9.354kmol for Nm in Equation (XVI).

yN2=0.04096kmol9.354kmol=0.00438

Substitute 0.04638kmol for NS and 9.354kmol for Nm in Equation (XVII).

yS=0.04638kmol9.354kmol=0.00496

Express the combustion equation.

[0.5758C+0.3258H2+0.0890O2+0.00438N2+0.00496S+ath(O2+3.76N2)0.5758CO2+0.3258H2O+0.00496SO2+kN2] (XXII)

Perform the species balancing:

Oxygen balance:

0.0890+ath=0.5758+0.5(0.3258)+0.00496ath=0.6547

Nitrogen balance:

k=0.00438+3.76(0.6547)=2.466

Substitute 0.6547 for ath and 2.466 for k in Equation (XXII).

[0.5758C+0.3258H2+0.0890O2+0.00438N2+0.00496S+0.6547(O2+3.76N2){0.5758CO2+0.3258H2O+0.00496SO2+2.466N2}] (XXIII)

Refer Equation (XIII) and write the number of moles of carbon dioxide, water and sulfur oxide.

NCO2=0.5758kmolNH2O=0.3258kmolNSO2=0.00496kmol

Refer Table A-26, “enthalpy of formation, Gibbs function of formation and entropy at 25°C,1atm”, and write the enthalpy of formation of carbon dioxide, water and ethane.

h¯f,CO2o=393,520kJ/kmolh¯f,H2Oo(l)=285,830kJ/kmolh¯f,SO2o=297,100kJ/kmol

Substitute 0.5758kmol for NCO2, 393,520kJ/kmol for h¯f,CO2o, 0.3258kmol for NH2O, 285,830kJ/kmol for h¯f,H2Oo, 0.00496kmol for NSO2 and 297,100kJ/kmol for h¯f,SO2o in Equation (XVIII).

hC=[(0.5758kmol)(393,520kJ/kmol)+(0.3258kmol)(285,830kJ/kmol)+(0.00496kmol)(297,100kJ/kmol)]=321,200kJ/kmol

Refer Equation (XXIII), and write the number of moles.

NC=0.5758kmolNH2=0.3258kmolNO2=0.0890kmolNN2=0.00438kmol

NS=0.00496kmol

Substitute 0.5758kmol for NC, 0.3258kmol for NH2, 0.0890kmol for NO2, 0.00438kmol for NN2, 0.00496kmol for NS, 12kg/kmol for MC, 2kg/kmol for MH2, 32kg/kmol for MO2, 32kg/kmol for MS and 28kg/kmol for MN2 in Equation (XIX).

Mm=[(0.5758kmol)(12kg/kmol)+(0.3258kmol)(2kg/kmol)+(0.0890kmol)(32kg/kmol)+(0.00438kmol)(28kg/kmol)+(0.00496kmol)(32kg/kmol)]0.5758kmol+0.3258kmol+0.0890kmol+0.00438kmol+0.00496kmol=10.69kg1kmol=10.69kg/kmol

Substitute 321,200kJ/kmol for hC, 0.5758kmol for NC, 0.3258kmol for NH2, 0.0890kmol for NO2, 0.00438kmol for NN2, 0.00496kmol for NS, 12kg/kmol for MC, 2kg/kmol for MH2, 32kg/kmol for MO2, 32kg/kmol for MS and 28kg/kmol for MN2 in Equation (XX).

HHV=(321,200kJ/kmol)[(0.5758kmol)(12kg/kmol)+(0.3258kmol)(2kg/kmol)+(0.0890kmol)(32kg/kmol)+(0.00438kmol)(28kg/kmol)+(0.00496kmol)(32kg/kmol)]=321,200kJ/kmol10.69kg/kmol=30,000kJ/kg

Hence, the higher heating value of a coal is 30,000kJ/kg.

For the LHV (lower heating value), the water in the products is taken to be vapor.

Refer Table A-26, “enthalpy of formation, Gibbs function of formation and entropy at 25°C,1atm”, and write the enthalpy of gaseous water.

h¯f,H2Oo(g)=241,820kJ/kmol

Substitute 0.5758kmol for NCO2, 393,520kJ/kmol for h¯f,CO2o, 0.3258kmol for NH2O, 241,820kJ/kmol for h¯f,H2Oo, 0.00496kmol for NSO2 and 297,100kJ/kmol for h¯f,SO2o in Equation (XVIII).

hC=[(0.5758kmol)(393,520kJ/kmol)+(0.3258kmol)(241,820kJ/kmol)+(0.00496kmol)(297,100kJ/kmol)]=306,850kJ/kmol

Substitute 306,850kJ/kmol for hC, 0.5758kmol for NC, 0.3258kmol for NH2, 0.0890kmol for NO2, 0.00438kmol for NN2, 0.00496kmol for NS, 12kg/kmol for MC, 2kg/kmol for MH2, 32kg/kmol for MO2, 32kg/kmol for MS and 28kg/kmol for MN2 in Equation (XXI).

LHV=(306,850kJ/kmol)[(0.5758kmol)(12kg/kmol)+(0.3258kmol)(2kg/kmol)+(0.0890kmol)(32kg/kmol)+(0.00438kmol)(28kg/kmol)+(0.00496kmol)(32kg/kmol)]=306,850kJ/kmol10.69kg/kmol=28,700kJ/kg

Hence, the lower heating value of a coal is 28,700kJ/kg.

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Thermodynamics: An Engineering Approach ( 9th International Edition ) ISBN:9781260092684

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