Guest

A 5000 kmol/hr gaseous mixture of benzene and toluene (80 % benzene by mole) is being burned in thermal afterburner using 30 % excess air. Assuming complete combustion. Determine a) the amount of the air required (in kmol/hr) b) the composition (by mole fraction) of the product gas (CO2, H2O, O2, N2). The stoichiometric combustion equations for benzene and toluene are: C6H6 + 7.5O2 -> 6CO2 + 3H2O C7H8 + 9O2 -> 7CO2 + 4H2O Only handwritten

A 5000 kmol/hr gaseous mixture of benzene and toluene (80 % benzene by mole) is being burned in thermal afterburner using 30 % excess air. Assuming complete combustion. Determine
a) the amount of the air required (in kmol/hr)
b) the composition (by mole fraction) of the product gas (CO2, H2O, O2, N2).
The stoichiometric combustion equations for benzene and toluene are:
C6H6 + 7.5O2 -> 6CO2 + 3H2O
C7H8 + 9O2 -> 7CO2 + 4H2O
Only handwritten

Grade:12th pass

1 Answers

Arun
25750 Points
3 years ago
Dear student
 
Question is not clear. Please check and repost the question with an attachment. I will be happy to help you

Think You Can Provide A Better Answer ?

ASK QUESTION

Get your questions answered by the expert for free