Continuous photochemical production of high purity linear mercaptan and sulfide-containing compositions.

Continuous photochemical production of high purity linear mercaptan and sulfide-containing compositions.

Methods for synthesizing a mercaptan compound include the steps of contacting a nickel-molybdenum catalyst with H.sub.2S at a sulfiding temperature of less than or equal to 235° C. to form a supported sulfur-containing catalyst, and then contacting an alcohol compound or an olefin compound, H.sub.2S, and the supported sulfur-containing catalyst to form a reaction mixture containing the mercaptan compound.

Methods for synthesizing a mercaptan compound include the steps of contacting a nickel-molybdenum catalyst with H.sub.2S at a sulfiding temperature of less than or equal to 235° C. to form a supported sulfur-containing catalyst, and then contacting an alcohol compound or an olefin compound, H.sub.2S, and the supported sulfur-containing catalyst to form a reaction mixture containing the mercaptan compound.

Methods for synthesizing a mercaptan compound include the steps of contacting a nickel-molybdenum catalyst with H.sub.2S at a sulfiding temperature of less than or equal to 235° C. to form a supported sulfur-containing catalyst, and then contacting an alcohol compound or an olefin compound, H.sub.2S, and the supported sulfur-containing catalyst to form a reaction mixture containing the mercaptan compound.

Methods for synthesizing a mercaptan compound include the steps of contacting a nickel-molybdenum catalyst with H.sub.2S at a sulfiding temperature of less than or equal to 235 C. to form a supported sulfur-containing catalyst, and then contacting an alcohol compound or an olefin compound, H.sub.2S, and the supported sulfur-containing catalyst to form a reaction mixture containing the mercaptan compound.

Methods for synthesizing a mercaptan compound include the steps of contacting a nickel-molybdenum catalyst with H.sub.2S at a sulfiding temperature of less than or equal to 235 C. to form a supported sulfur-containing catalyst, and then contacting an alcohol compound or an olefin compound, H.sub.2S, and the supported sulfur-containing catalyst to form a reaction mixture containing the mercaptan compound.

Methods for synthesizing a mercaptan compound include the steps of contacting a nickel-molybdenum catalyst with H.sub.2S at a sulfiding temperature of less than or equal to 235 C. to form a supported sulfur-containing catalyst, and then contacting an alcohol compound or an olefin compound, H.sub.2S, and the supported sulfur-containing catalyst to form a reaction mixture containing the mercaptan compound.

The present invention discloses high pressure flow reactor vessels and associated systems. Also disclosed are processes for producing thiol compounds and sulfide compounds utilizing these flow reactor vessels.

The present invention discloses high pressure flow reactor vessels and associated systems. Also disclosed are processes for producing thiol compounds and sulfide compounds utilizing these flow reactor vessels.