Respuesta :
Answer:
Explanation:
The reaction in question is as follows ;
2H2 + O2 -> 2H2O
- from the reaction, 2 moles of hydrogen react with 1 mole of O2 to give 2 moles of water.
- given the flow rate of hydrogen = 27 gmol/min
- gmol is defined = mass in grams / molecular weight
- molecular weight of H2 = 2
- mass of hydrogen = 27 gmol x 2 = 54 g of H2 flows /min
- from the reaction ; 2moles of H2 react with 1 mole of O2, then the number of moles of O2 that will be needed to react with 27moles of Hydrogen will be 13.5moles which implies the amount of oxygen that needs to flow.
- As such, the amount of oxygen is 50% more than needed, this makes oxygen the excess reactants.
- As the amount needed is 13.5 moles which is 50% more = 13.5 x 50/100 = 6.75 moles.
- Therefore, total moles = 13.5 + 6.75 = 20.25 moles
Since the oxygen comes from air which has a component of 21 mole % oxygen and 79 mole% N2. it shows that since we have 20.25 moles of oxygen, then 76.17 moles of nitrogen also will be required.
- Given that the conversion of H2 is 85% , hence the remaining hydrogen is unburnt which is 0.15 x 27 moles = 4.05 moles of hydrogen remaining.
- Amount of hydrogen burning is 0.85 x 27 = 22.95 moles
- This will consume 22.95/2 = 11.475 moles of oxygen so the amount of O2 unreacted will be = 20.25 - 11.475 = 8.775 moles of oxygen.
- from the reaction, since 2moles of H2 produce 2moles of water, hence 22.95 moles of hydrogen that is burning it will also produce 22.95 moles of water.
Therefore, the flow rate of each of the specie will be ;
- 8.775 gmol/min of oxygen,
- 22.95 g mol/min of water,
- 4.05 gmol/min of hydrogen,
- 76.17 gmol/min of nitrogen.
