An analysis of the flue gas (dry basis) indicates that it consists of 7.71% CO, 0.51% CO, 7.41% O, 84.32% of N2, and a trace amount of methane and ethane (% mole). Calculate: a. The composition of the fuel b. The conversion of oxygen c. The conversion of methane d. The conversion of ethane e. The excess amount of air used

Please solve question 18,?

Transcribed Image Text:

cdn.fbsbx.com Done system shown in Figure P2.17. The reaction is N2 + 3H2 – 2NH3 99 of 494 onia is removed completely in the separator. A feed stream con- sisting of 2% argon (by mole) and stoichiometric proportion of the reac- tants is fed into the system at the rate of 100 mol/min. The mole fraction of argon in the purge stream (stream 6) is 5%, and the conversion per pass in the reactor is 10%, Determine: a. The production rate of ammonia b. The overall (process) conversions of nitrogen and hydrogen c. The flow rate of the recycle stream (stream 7) 2.183 A gaseous fuel consisting of a mixture of methane (CH4) and ethane (C,H) is fed into a burner in a proportion of 1 mol of fuel per 18 mol of air. The following reactions are believed to take place in the reactor: CH4 + 202 - CO2 + 2H2O 2CH4 + 302 - 2CO + 4H2O 2C,H6 + 502 4CO + 6H2O 3 Reactor Separator 4 + Ammonia 7 6 Purge Figure P2.17 Ammonia rector with a separator. BIBLIOGRAPHY 79 2C2H6 + 702 → 4CO2 + 6H2O 2CO + 02 - 2CO2 An analysis of the flue gas (dry basis) indicates that it consists of 7.71% CO,, 0.51% CO, 7.41% O2, 84.32% of N2, and a trace amount of methane and ethane (% mole). Calculate: a. The composition of the fuel b. The conversion of oxygen c. The conversion of methane d. The conversion of ethane e. The excess amount of air used