Patent ID: 9428698
Filing Date: 2016-08-30
CPC Classification: B01J,C10G,Y02P

Claim Text:
1. A method for controlling catalyst in reaction zones and purifying and cooling regenerated catalyst, the method being used in the catalytic reaction process with a petroleum hydrocarbon feedstock or an alcohol feedstock, is characterized that the method comprises controlling a reaction process and controlling catalyst fed into a reactor, wherein an apparatus used in the method comprises a reactor, a catalyst regenerator, a regenerated catalyst purification controller, and catalyst delivery pipes, wherein controlling the reaction process includes controlling contact, gasification and reaction of liquid phase feedstock oil and catalyst, controlling gas phase cracking reaction process after the feedstock oil is gasified, and controlling a temperature at an outlet of the reactor, and wherein controlling catalyst fed in the reactor includes controlling a temperature of the regenerated catalyst and controlling purification of gases carried by the catalyst fed into the reactor, wherein at least a portion of the regenerated catalyst is fed into the purification controller, and is then cooled by a heat exchanger tube, thereby controlling a temperature of the regenerated catalyst, and simultaneously, the carried gases, including nitrogen, carbon dioxide, and oxygen, are replaced by steam, wherein the catalyst which reaches a required temperature and meets the requirements for the carried gases is fed downward under the action of gravity through the catalyst delivery pipes into the reactor below a reaction feedstock material feed point and at a lower portion of a gas phase cracking reaction zone located above a gasification zone of reaction feedstock material respectively, so that the reactor realizes a multiple-level control of gasification before reaction, cracking reaction after liquid phase gasification, and reaction conditions at the outlet of the reactor, and simultaneously, nitrogen, oxygen and carbon dioxide carried by the regenerated catalyst are limited to be fed into the reactor, wherein, in the step of controlling the catalyst fed into the reactor, the regenerated catalyst is fed into the reactor through three passages, wherein some of the regenerated catalyst from the regenerator is fed directly into a bottom of the reactor below a feedstock oil feed point, i.e. into a pre lifting section, through a regeneration standpipe, and after the rest of the regenerated catalyst is cooled within the purification controller so that the temperature is controlled to reach the required temperature, and gas mediums carried by the regenerated catalyst are replaced, the rest of the regenerated catalyst is fed into different zones of the reactor through two delivery pipes, each of which is provided therein with a valve for controlling a flow of catalyst, wherein through a first delivery pipe of the two delivery pipes, the catalyst from the regenerated catalyst purification controller is fed downward under the action of gravity into the pre lifting section of the reactor below the reaction feedstock material feed point, and mixes with the regenerated catalyst fed through the regeneration standpipe, thereby decreasing a temperature of the regenerated catalyst within the pre lifting section, wherein an amount of the cooled catalyst which is fed from the regenerated catalyst purification controller through the first delivery pipe is adjusted so as to control the temperature of catalyst in the pre lifting section before the regenerated catalyst contacts the feedstock oil, and control and improve a ratio of catalyst to oil in the gasification zone, wherein through a second delivery pipe of the two delivery pipes, the cooled and purified catalyst from the regenerated catalyst purification controller is fed downward under the action of gravity into the gas phase reaction zone above the reaction feedstock material feed point at the lower portion of the gas phase cracking reaction zone located above the gasification zone, wherein the purifying and cooling the regenerated catalyst comprises controlling the purification of the regenerated catalyst by stripping the carried gases in the purification controller, controlling a temperature of the regenerated catalyst in the purification controller, adjusting steam in the purification controller, and providing a stripped gas discharging pipe and regenerated catalyst feeding and discharging pipes to the purification controller, wherein the regenerated catalyst is fed from the regenerator through one input pipe and is discharged through two delivery pipes from the purification controller into the reactor, the steam is fed into a bottom region of the purification controller, stripping medium and the gases carried by the regenerated catalyst are discharged from an upper portion of the purification controller, a steam feeding pipe is provided therein with an adjustment valve, which is controlled depending on a temperature of the catalyst within the regenerated catalyst purification controller or a difference between the temperature at the corresponding point in the reaction zone and the temperature of the catalyst within the regenerated catalyst purification controller, wherein a catalyst temperature measurement point is disposed below the reaction feedstock material feed point, and the opening of the valve in the first delivery pipe is controlled depending on the temperature of this catalyst temperature measurement point, thereby adjusting an amount of the catalyst which is fed from the regenerated catalyst purification controller into the reactor, and wherein an amount of the catalyst which takes part in the gas phase cracking reaction zone of the reactor is controlled depending on the opening of the valve in the second delivery pipe.