Oxygen-enhanced Claus carbon dioxide recovery

What is claimed is: 1. A process for recovery of carbon dioxide from an acid gas stream, comprising: feeding a first oxygen stream comprising at least 90 vol % oxygen and the acid gas stream comprising carbon dioxide and sulfur-containing compounds to a sulfur recovery unit; recovering a sulfur product stream and a tail gas stream from the sulfur recovery unit, wherein the tail gas stream comprises carbon dioxide, hydrogen, sulfur-containing compounds, water, and hydrogen sulfide; receiving the tail gas stream in a tail gas treatment unit configured to produce a treated tail gas stream; receiving a second oxygen stream in the tail gas treatment unit; contacting, in the tail gas treatment unit, hydrogen received from the tail gas stream and oxygen received from the second oxygen stream with an oxidation catalyst to produce water; contacting, in the tail gas treatment unit, the sulfur-containing compounds and hydrogen received from the tail gas stream with a hydrogenation catalyst to produce a hydrogenated product stream comprising carbon dioxide, hydrogen sulfide, water, and hydrogen; contacting the hydrogenated product stream with a solvent in an absorber to produce the treated tail gas stream and a H 2 S-loaded solvent stream, wherein the treated tail gas stream comprises carbon dioxide, water, and hydrogen, wherein the H 2 S-loaded solvent stream comprises hydrogen sulfide and the solvent; converting, via thermal oxidation or catalytic oxidation, hydrogen of the treated tail gas stream to water to produce an oxidation product stream comprising carbon dioxide and water; cooling and optionally increasing a pressure of the oxidation product stream; and separating water from the oxidation product stream to produce a carbon dioxide product stream. 2. The process of claim 1 , wherein the treated tail gas stream comprises carbon dioxide in a range of from about 30 vol % to about 70 vol %, hydrogen in a range of from about 10 vol % to about 30 vol %, and hydrogen sulfide in a range of about 2 ppmv to about 10 ppmv. 3. The process of claim 1 , further comprising: increasing a pressure of the carbon dioxide product stream to an on-spec pressure. 4. The process of claim 1 , wherein the contacting, in the tail gas treatment unit, of the hydrogen received from the tail gas stream and the oxygen received from the second oxygen stream with the oxidation catalyst to produce water is effected prior to the contacting, in the tail gas treatment unit, the sulfur-containing compounds and the hydrogen received from the tail gas stream with the hydrogenation catalyst to produce the hydrogenated product stream comprising carbon dioxide, hydrogen sulfide, water, and hydrogen. 5. The process of claim 4 , wherein the oxidation catalyst comprises titanium dioxide. 6. The process of claim 1 , wherein the hydrogenation catalyst comprises cobalt, molybdenum, or both cobalt and molybdenum. 7. The process of claim 1 , wherein no portion of the treated tail gas stream is vented to the atmosphere or sent to an incinerator. 8. The process of claim 1 , wherein the carbon dioxide product stream comprises greater than 95 vol % carbon dioxide. 9. The process of claim 1 , wherein no fuel gas is required for converting hydrogen of the treated tail gas stream to water. 10. A process for recovery of carbon dioxide from an acid gas stream, comprising: feeding a first oxygen stream comprising at least 90 vol % oxygen and the acid gas stream comprising carbon dioxide and sulfur-containing compounds to a sulfur recovery unit; recovering a sulfur product stream and a tail gas stream from the sulfur recovery unit, wherein the tail gas stream comprises carbon dioxide, hydrogen, sulfur-containing compounds, water, and hydrogen sulfide; receiving the tail gas stream in a tail gas treatment unit contacting, in the tail gas treatment unit, the sulfur-containing compounds and hydrogen received from the tail gas stream with a hydrogenation catalyst to produce a hydrogenated product stream comprising carbon dioxide, hydrogen sulfide, water, and hydrogen; contacting the hydrogenated product stream with a solvent in an absorber to produce a treated tail gas stream and a H 2 S-loaded solvent stream, wherein the treated tail gas stream comprises carbon dioxide, water, and hydrogen, wherein the H 2 S-loaded solvent stream comprises hydrogen sulfide and the solvent; converting, via thermal oxidation or catalytic oxidation, hydrogen of the treated tail gas stream to water to produce an oxidation product stream comprising carbon dioxide and water; cooling and optionally increasing a pressure of the oxidation product stream; and separating water from the oxidation product stream to produce a carbon dioxide product stream, wherein a hydrogenation reactor of the tail gas treatment unit uses hydrogen formed in the sulfur recovery unit and does not use hydrogen from another source. 11. The process of claim 10 , wherein the sulfur recovery unit is operated at a temperature such that hydrogen is formed in the sulfur recovery unit. 12. A process for recovery of carbon dioxide from an acid gas stream, comprising: feeding a first oxygen stream comprising at least 90 vol % oxygen and the acid gas stream comprising carbon dioxide and sulfur-containing compounds to a sulfur recovery unit; recovering a sulfur product stream and a tail gas stream from the sulfur recovery unit, wherein the tail gas stream comprises carbon dioxide, hydrogen, sulfur-containing compounds, water, and hydrogen sulfide; receiving the tail gas stream in a tail gas treatment unit heating, in the tail gas treatment unit, the tail gas stream to provide a heated tail gas stream; contacting, in the tail gas treatment unit, the sulfur-containing compounds and hydrogen received from the heated tail gas stream with a hydrogenation catalyst to produce a hydrogenated product stream comprising carbon dioxide, hydrogen sulfide, water, and hydrogen; contacting the hydrogenated product stream with a solvent in an absorber to produce a treated tail gas stream and a H 2 S-loaded solvent stream, wherein the treated tail gas stream comprises carbon dioxide, water, and hydrogen, wherein the H 2 S-loaded solvent stream comprises hydrogen sulfide and the solvent; converting, via thermal oxidation or catalytic oxidation, hydrogen of the treated tail gas stream to water to produce an oxidation product stream comprising carbon dioxide and water; cooling and optionally increasing a pressure of the oxidation product stream; and separating water from the oxidation product stream to produce a carbon dioxide product stream. 13. A system for recovery of a carbon dioxide product stream from acid gas comprising: an oxygen source configured to produce an oxygen stream comprising at least 90 vol % oxygen; a sulfur recovery unit configured to receive the oxygen stream and an acid gas stream and configured to produce a tail gas stream and a sulfur product stream, wherein the tail gas stream comprises carbon dioxide, hydrogen, sulfur-containing compounds, water, and hydrogen sulfide; a tail gas treatment unit comprising a heater, a hydrogenation reactor and an absorber, wherein the heater is configured for heating, in the tail gas treatment unit, the tail gas stream to provide a heated tail gas stream, wherein the hydrogenation reactor is configured to convert the sulfur-containing compounds received from the heated tail gas stream to hydrogen sulfide, and produce a hydrogenated product stream, wherein the absorber is configured to receive the hydrogenated product stream, selectively absorb hydrogen sulfide, produce a treated tail gas stream comprising carbon