Method for producing cycloolefin and production apparatus thereof

摘要

There is provided a method for producing cycloolefin where the nickel which elutes in the liquid-contact portion of the reactor is removed from the reaction system of the partial hydrogenation reaction and cycloolefin can be stably produced from a monocyclic aromatic hydrocarbon over a long term. A method for producing a cycloolefin by a partial hydrogenation reaction of a monocyclic aromatic hydrocarbon in an aqueous phase, which contains a metal salt-containing acidic aqueous solution and a ruthenium catalyst in a reactor with a liquid-contact portion formed of a nickel-containing material, the method comprising a first step of bringing at least a part of the ruthenium catalyst contained in the aqueous phase into contact with oxygen, a second step of separating the aqueous phase containing the ruthenium catalyst that has been processed in the first step into a first phase containing the ruthenium catalyst at a high ratio and a second phase containing the ruthenium catalyst at a lower ratio than the first phase, and a third step of feeding the first phase to a reaction system of a partial hydrogenation reaction.

主权项

1. A method for producing a cycloolefin, comprising:
producing the cycloolefin by a partial hydrogenation reaction of a monocyclic aromatic hydrocarbon, wherein the partial hydrogenation reaction is conducted in an aqueous phase which contains a first metal salt-containing acidic aqueous solution and a ruthenium catalyst, and wherein the partial hydrogenation reaction is conducted in a reactor with a liquid-contact portion formed of a nickel-containing material; separating an oil phase comprising the cycloolefin and an aqueous phase containing the ruthenium catalyst and an eluted nickel; and processing the aqueous phase containing the ruthenium catalyst and the eluted nickel through the steps including a first step of bringing at least a part of the ruthenium catalyst and the eluted nickel contained in the aqueous phase into contact with oxygen, a second step of separating the aqueous phase containing the ruthenium catalyst and the eluted nickel that has been processed in the first step into a first phase, and a second phase, wherein the concentration of ruthenium catalyst in the first phase is higher than the concentration of ruthenium catalyst in the second phase, a third step of feeding the first phase to a reaction system of the partial hydrogenation reaction, a fourth step of bringing the second phase containing the ruthenium catalyst and the eluted nickel into contact with a metal catalyst to produce a second metal salt-containing acidic aqueous solution including nickel, wherein the metal catalyst contains at least one metal selected from the group consisting of Cu, Ag, Au, Pd, Pt, Rh, Ir, Ru and Re and a fifth step of feeding the second metal salt-containing acidic aqueous solution including nickel to the reaction system of the partial hydrogenation reaction, wherein the concentration of nickel in the second metal salt-containing acidic aqueous solution is lower than the concentration of nickel in the second phase.