Methanol carbonylation system with multiple absorber feed options

What is claimed is: 1. An apparatus for producing acetic acid comprising: (a) a reactor for carbonylating methanol or its reactive derivatives, the reactor containing a catalyst selected from rhodium catalysts, iridium catalysts and mixtures thereof, and a methyl iodide promoter in an acetic acid reaction mixture; (b) a feed system for providing carbon monoxide and methanol or its reactive derivatives to the reactor; (c) a flash system configured to receive a stream of the reaction mixture and separate it into (i) at least a first liquid recycle stream, and (ii) a crude process stream containing acetic acid; (d) a first distillation column coupled to the flash system, the first distillation column being adapted to separate low boiling components including methyl iodide from the crude process stream, and generate a purified process stream, the first distillation column and optionally the reactor and flash system also operating to generate a vent gas stream comprising volatile organic components including methyl iodide; (e) an absorber tower receiving the vent gas stream and removing methyl iodide therefrom with a first or a second scrubber solvent, the first and second scrubber solvents being different solvents, the absorber tower also being coupled to a first scrubber solvent source and a second scrubber solvent source both of which are external to the absorber tower and which are capable of supplying the different first and second scrubber solvents; and (f) a switching system for alternatively providing the first or the second scrubber solvents to the absorber tower from either the first scrubber solvent source or the second scrubber solvent source. 2. The apparatus according to claim 1 , wherein the first scrubber solvent comprises methanol and the second scrubber solvent consists essentially of acetic acid. 3. The apparatus according to claim 2 , wherein the first scrubber solvent consists essentially of methanol. 4. The apparatus according to claim 1 , further comprising a chiller coupled to the absorber tower and the first and second scrubber solvent sources for cooling the scrubber solvents. 5. The apparatus according to claim 1 , wherein a return stream from the absorber tower is selectively coupled to the feed system to the reactor or the first distillation column. 6. The apparatus according to claim 1 , further including a catalyst reservoir system and wherein a return stream from the absorber tower is selectively coupled to the feed system to the reactor, the first distillation column, or the catalyst reservoir system. 7. The apparatus according to claim 1 , wherein the feed system includes a methanol surge tank which is connected to the absorber tower as the first scrubber solvent source. 8. The apparatus according to claim 1 , further comprising a drying column coupled to said first distillation column adapted for receiving the purified product stream and removing water therefrom. 9. The apparatus according to claim 1 , wherein the reactor is vented to the flash system. 10. The apparatus for producing acetic acid according to claim 1 , adapted for venting non-condensables from the production system so as to provide low pressure vent gas only. 11. The apparatus according to claim 10 , wherein the catalyst is a supported catalyst. 12. The apparatus according to claim 11 , wherein the catalyst is a supported rhodium catalyst. 13. The apparatus according to claim 12 , wherein the rhodium catalyst is supported on a crosslinked polyvinylpyrrolidone polymer. 14. The apparatus according to claim 12 , wherein the rhodium catalyst is supported on a crosslinked polyvinylpyridine polymer. 15. The apparatus according to claim 1 , wherein a return stream from the absorber tower is selectively coupled to the feed system to the reactor or a second distillation column. 16. The apparatus according to claim 1 , wherein a return stream from the absorber tower is selectively coupled to the feed system to the reactor or to both the first distillation column and a second distillation column. 17. The apparatus according to claim 1 , further including a catalyst reservoir system and wherein a return stream from the absorber tower is selectively coupled to the feed system to the reactor, a second distillation column, or the catalyst reservoir system. 18. The apparatus according to claim 1 , further including a catalyst reservoir system and wherein a return stream from the absorber tower is selectively coupled to the feed system to the reactor, the first distillation column and a second distillation column, or the catalyst reservoir system. 19. An apparatus for producing acetic acid comprising: (a) a reactor for carbonylating methanol or its reactive derivatives, the reactor containing a catalyst selected from rhodium catalysts, iridium catalysts and mixtures thereof, and a methyl iodide promoter in an acetic acid reaction mixture; (b) a feed system for providing carbon monoxide and methanol or its reactive derivatives to the reactor; (c) a flash system configured to receive a stream of the reaction mixture and separate it into (i) at least a first liquid recycle stream, and (ii) a crude process stream containing acetic acid; (d) a first distillation column coupled to the flash system, the first distillation column being adapted to separate low boiling components including methyl iodide from the crude process stream, and generate a purified process stream, the first distillation column and optionally the reactor and flash system also operating to generate a vent gas stream comprising volatile organic components including methyl iodide; (e) optionally, a second distillation column adapted to receive the purified process stream and remove water therefrom to generate a purified and dried process stream; (f) an absorber tower receiving the vent gas stream and removing methyl iodide therefrom with a first or a second scrubber solvent, the first scrubber solvent consisting essentially of methanol and the second scrubber solvent consisting essentially of acetic acid, the absorber tower also being coupled to a first scrubber solvent source and a second scrubber solvent source both of which are external to the absorber tower and which are capable of supplying the first and second scrubber solvents; and (g) a switching system for alternatively providing the first or the second scrubber solvents to the absorber tower from either the first scrubber solvent source or the second scrubber solvent source, wherein further a return stream from the absorber tower is selectively coupled by the switching system to both of the following: (i) the reactor or the feed system to the reactor; and (ii) the first distillation column or the second distillation column such that the return stream may be alternatively provided to either: (i) the reactor or the feed system to the reactor or (ii) the first distillation column or the second distillation column. 20. The apparatus according to claim 19 , wherein a return stream from the absorber tower is selectively coupled by the switching system to both of the following: (i) the reactor or the feed system to the reactor; and (ii) the first distillation column such that the return stream may be alternatively provided to either: (i) the reactor or the feed system to the reactor or (ii) the first distillation column.