COS and CS2 abatement method

The invention claimed is: 1. A reactor system for removing carbonyl sulphide (COS) and/or carbon disulphide (CS 2 ) from a sour gas stream, wherein the reactor system comprises an absorption column, wherein the absorption column contains an absorption liquid and comprises a catalyst suitable for hydrolyzing COS and CS 2 , wherein the catalyst is a transition metal or a salt of a transition metal, and wherein the catalyst is present in or on the absorption column. 2. The reactor system of claim 1 , wherein the absorption column comprises trays, wherein the catalyst is a heterogeneous catalyst applied as a coating on the trays. 3. The reactor system of claim 1 , wherein the absorption column is a packed column with a packing, wherein the catalyst is coated on the packing. 4. The reactor system of claim 1 , wherein the catalyst is selected from the group consisting of vanadium, iron, molybdenum, ruthenium, manganese, chromium, zinc, nickel, and salts thereof, and combinations thereof. 5. A reactor system for removing COS and/or CS 2 from a sour gas stream, comprising an absorption vessel that is configured to subject the sour gas stream to contact with an absorption liquid so as to produce a liquid stream containing absorbed gas and having an outlet for said liquid stream; and a hydrolysis reactor having an inlet that is connected to said outlet for said liquid stream of said absorption vessel and that is configured to receive said liquid stream from said absorption vessel, wherein the hydrolysis reactor comprises a catalyst suitable for hydrolyzing COS and CS 2 , and whereby the liquid stream is contacted with said catalyst in said hydrolysis reactor. 6. The reactor system of claim 5 , wherein the catalyst is a transition metal or a salt of a transition metal. 7. The reactor system of claim 1 , wherein the absorption liquid is an alcohol or a basic aqueous solution. 8. The reactor system of claim 5 , wherein said hydrolysis reactor further comprises a contacting device and wherein the catalyst is deposited on said contacting device, wherein said contacting device is selected from the group consisting of filtering media, vane packs, corrugated plates, coalescing media, and flashing devices. 9. The reactor system of claim 5 , wherein said reactor system further comprises a regenerator connected to a liquid outlet of the hydrolysis reactor and wherein the outlet of said absorption vessel is at the bottom of the absorption vessel and is connected to said inlet of said hydrolysis reactor that configured to receive liquid from said absorption vessel. 10. The reactor system of claim 1 , wherein the absorption column has a top and a bottom, and has a liquid inlet for the absorption liquid at said top and a liquid outlet at said bottom, and an inlet for said sour gas stream at said bottom and an outlet for a treated gas stream at said top.