Process for sulfur removal from refinery off gas

What is claimed is: 1. A process for removal of organic sulfur compounds from multiple refinery off gas streams containing at least olefins and sulfur compounds including H 2 S and organic sulfur compounds, wherein a first off gas feed stream contains a high concentration of olefins and a second off gas feed stream contains a low concentration of olefins, the process comprising: a) feeding the first feed stream to an amine absorber to remove at least part of the H 2 S to produce a first H 2 S depleted stream; b) feeding the second feed stream to an amine absorber to remove at least part of the H 2 S to produce a second H2S depleted stream; c) splitting the first H 2 S depleted stream into a first split stream and a second split stream; d) feeding the first split stream into a catalytic reactor at a temperature of between 340° C. and 450° C. to convert a majority of the organic sulfur compounds to H 2 S at the pressure employed and removing a hot first organic sulfur depleted stream from the catalytic reactor; e) combining the second split stream and second H 2 S depleted stream are mixed in quantities such that the resulting combined stream is fed into a hydrotreater and maintains the temperature of the hydrotreater to between about 340° C. and 450° C. at the pressure employed and converting the organic sulfur compounds into H 2 S; f) removing a second organic sulfur depleted stream from the hydrotreater; g) combining the first organic sulfur depleted stream and the second organic sulfur depleted stream to form a combined organic sulfur depleted stream; h) cooling the combined organic sulfur depleted stream; and i) feeding the cooled combined organic sulfur depleted stream to an amine sulfur removal system to remove the H 2 S and produce a product gas stream. 2. The process of claim 1 wherein the refinery off gas stream contains hydrogen, saturated and unsaturated hydrocarbons, and carbon oxides and the molar ratio of hydrogen to unsaturated hydrocarbons is greater than 0.5. 3. The process of claim 1 wherein the first split stream has a pressure of 10 bar or greater and the catalytic reactor operates without the addition of oxygen. 4. The process of claim 1 wherein the first split stream has a pressure of less than 10 bar and a sufficient amount of oxygen is introduced into the catalytic reactor to maintain the temperature between 340° C. and 450° C. 5. The process of claim 4 wherein steam is introduced into the catalytic reactor. 6. The process of claim 1 wherein the organic sulfur compounds include one or more compounds selected from the group consisting of sulfides, sulfites, thiosulfites, thiophenes, mercaptans, disulfides and dialkyl sulfides. 7. The process of claim 1 wherein the catalytic reactor is a dual mode reactor capable of operating in a hydrogenation mode or an oxidation mode at space velocities of greater than 10,000 hr −1 . 8. The process of claim 1 wherein the first off gas feed stream contains a concentration of olefins of 5% or more and a second off gas feed stream contains concentration of olefins of 3% or less.