Methanol is synthesized from carbon monoxide and hydrogen in a catalytic reactor according to the following reaction:

CO + 2H₂ --> CH₃OH

The fresh feed to the process contains CO, H₂, and N₂. This stream is mixed with a recycle stream to produce the feed to
the reactor. A low single-pass conversion is attained in the reactor. The reactor effluent flows at a rate of 550 kmol/h and
contains 27.0 mole% CO, 54.0% H₂, 14.0% N₂, and 5.0% CH₃OH. It goes to a condenser from which two streams emerge: a
liquid product stream containing essentially all the methanol formed in the reactor, and a gas stream containing all the CO,
H₂, and N₂ leaving the reactor. The gas stream is split into two fractions: one is removed from the process as a purge
stream, and the other is the recycle stream that combines with the fresh feed to the reactor. The overall conversion of CO is
76%. Calculate the following:
1. Production rate of methanol (kmol/h)
2. Molar flow rate (kmol/h) and composition of the gas stream leaving the condenser
3. Molar flow rate (kmol/h) and composition of the purge stream
4. Molar flow rate (kmol/h) and composition of the fresh feed
5. Molar flow rate of CO (kmol/h) in the recycle stream
6. Single-pass conversion of CO