Patent ID: 9221724
Filing Date: 2015-12-29
Classification: B01J,C07C,Y02P

Abstract:
1. A process for producing at least one light olefin, comprising: (1) providing a reaction-regeneration system comprising a primary reaction zone, a secondary reaction zone, and a regenerator, wherein the secondary reaction zone comprises two or more risers; and the regenerator comprises two or more regeneration zones; (2) transporting a first raw material into the primary reaction zone to be contacted with at least one catalyst comprising at least one molecular sieve, producing a product stream I, and also forming at least one coked catalyst, wherein the amount of carbon deposited on the coked catalyst ranges from about 1% to about 6% by mass; (3) transporting said at least one coked catalyst to a first regeneration zone of the regenerator for regeneration, transporting from about 50% to about 80% by weight of the resulting regenerated catalyst to the second regeneration zone, and recycling from about 20% to about 50% by weight of the resulting regenerated catalyst to the primary reaction zone, wherein the amount of carbon deposited on the catalyst recycled from the first regeneration zone to the primary reaction zone ranges from about 0.5% to about 2.0% by mass; (4) transporting at least one portion of the regenerated catalyst in the second regeneration zone to the first riser of the secondary reaction zone to be contacted with a second raw material, thus producing a product stream II, transporting another portion of the regenerated catalyst into the second riser of the secondary reaction zone to be contacted with a third raw material, thus producing a product stream III, wherein the amount of carbon deposited on the catalyst fed into the first or second riser is less than about 0.5% by mass; and (5) transporting both the product streams II and III and the catalyst into a secondary disengaging zone, subjecting the product streams II and III to gas-solid separation and further transporting the result thereof into a separation section, and recycling the separated catalyst to the first regeneration zone of the regenerator; wherein: the first raw material comprises methanol; the second raw material comprises a mixed heavy hydrocarbon having a carbon number of 4 or more and an olefin mass content of more than about 60% by weight relative to the total weight of the second raw material, and/or a mixed hydrocarbon having a carbon number of 4 or more obtained from said separation section; and the third raw material comprises a light hydrocarbon having an ethylene mass content of more than about 30% by weight relative to the total weight of the third raw material, and/or a light hydrocarbon obtained from said separation section.