TH8679B - Methods and machines for the formation of catalysts used in hydrocarbon recovery. - Google Patents

Abstract

The regeneration of the catalyst already used in hydrocarbon translation is made by the catalyst Beck path in which the catalyst is supplied through several V-transition zones in the catalyst vessel. First, the catalyst is exposed to the hot, oxygenated gas stream in the combustion zone to remove the coke, and then the catalyst passes into the drying zone to remove the dehydrated water. Occurs in the combustion zone by providing a stream of hot air through this catalyst. This hot air stream is generated by heat exchange with the catalyst. Therefore, the regenerated catalyst is cooled and by means of heating the air inside the vessel. After passing through the drying zone This air current provides oxygen for combustion in the combustion zone.

Claims (6)

1. A machine for the regeneration of the degenerated catalyst particles used in the reaction of hydrocarbon transformation. Which has an arrangement that allows for cooling And heating of the catalyst particles as well One air current and one air heating zone, such apparatus consists of: (a) a vertically positioned tank where the catalyst assembly can pass by gravity, a tank As such, there is a cylindrical top section that makes up the combustion zone. And the cylindrical bottom, which is shorter in diameter than the above, and consists of catalyst drying zone, air heating zone, catalyst cooling zone, and cavity nozzle. The catalyst passage is arranged at the lower end of the lower part; (b) Two vertical cylindrical screens of varying diameters mainly extend along the top of the aforementioned tank, concentrically to form a ring-shaped volume. Where the fall The drop of the catalyst platform can be passed by gravity, where the ring-shaped volume is connected to the catalyst drying zone mentioned in the bottom part of the aforementioned tank. Already, and which are centrally located in the upper part of the aforementioned tank. To form a ring-shaped space For the distribution of gas between the tank wall and the longer diameter grate of the two above-mentioned vertical cylindrical catalytic screens; (c) The nozzles that are the catalytic inlet, at least the above nozzles mentioned. At least one catalytic inlet, which is connected to the catalytic inlet nozzles mentioned above. And connected to the top of the aforementioned ring-shaped volumes formed by the aforementioned catalytic screen; (d) at least one of the foregoing gas nozzles of recirculation, connected to the aforementioned ring gas distribution space; (e) At least one of the fluid gas nozzles on the said cylinder is connected to the enclosed center-cylinder space. With a shorter diameter catalyst screen; (f) The area of the catalyst drying mentioned above, comprising the top of the bottom of the aforementioned tank. And is in connection with the platform of the aforementioned ring catalyst; (g) The aforementioned air heating zone, which is located at the bottom closely to the catalyst drying zone mentioned above. And consists of a group of heating elements Which passes through the center of the heating zone mentioned above In order to heat the air currents upward, the catalytic flow path at least the path arranged around the outer periphery of the aforementioned air heating zone. And a device to prevent contact between the previously mentioned heating elements With the particles of the catalyst already mentioned; And (h) the aforementioned catalytic cooling zone, which has a nozzle that is an air inlet on the aforementioned tank, and has an air distribution device connected to the funnel nozzles. Inlet of the aforementioned air, where the catalytic cooling zone is positioned closely below the aforementioned air heating zone, with the aforementioned air distribution device It is placed in a horizontal plane arranged in the lower part of the cooling zone in such a way that the air is mostly uniformly distributed. On the horizontal plane mentioned above 2. The instrument of claim 1 also contains an additional catalyst halogen zone. Which consists of the above cylindrical overhangs mentioned above And the two aforementioned catalytic grate, which this extension is located on the side of the aforementioned combustion zone, where the aforementioned ring-shaped volumes It is formed by the catalyst screen above. It is connected to the area of catalytic drying, and is also complementary; (a) A horizontal annular baffle arranged in the annular space of the above section. For gas distribution at the upper boundary of the aforementioned halogens And spanned between the side walls of the tank With a piece of sieve Longer diameter Will prevent the flow of gas between the halogenated zone and the combustion zone in the space of the aforementioned annular gas distribution; (b) The splitting nozzle that is the inlet for at least one halogen element on the above tank. Connected to the space of the ring gas distribution of the aforementioned halogenated region; (c) At least one nozzle that is the chest cavity of the halogen group. And an outlet pipe of the halogen element connected to the injectors as an outlet channel Of the above halogen groups And in such a manner as to be connected to the aforementioned center space enclosed by a piece of shorter diameter than the fore; And (d) flow control devices that are positioned and characterized to control the part of the gas flowing upward in the aforementioned neutral space. In the halogenated region enters the outlet pipe of the aforementioned halogen group. And in order to divert part of the gas that flows in the aforementioned gas distribution space in the halogenated region, pass through the catalyst platform and into the aforementioned center in the flaming zone. The above 3. Instrument of claim No. 1 Here, the air heating zone consists of a device for controlling catalytic particles. Which flows downward into the catalytic flow path mentioned above 4. The instrument of claim 3 Here, the air heating zone consists of two catalytic downward channels, each downward channel is bounded by a part of the Side wall of the above-mentioned washboard And the flat plaque in the chord-to-lateral relationship, where one pair of downward planks of each channel are parallel to each other. It is along the length of the tank mentioned above. And make up a device for controlling the catalyst, which flows down at least part of the aforementioned washers. 5. Machine of claim No. 4 Here, the heating element consists of a heating tube arranged in the space between a pair of flat metal plates. Of the channels down below each of the channels And the grate extends between the aforementioned flat metal plates and covers the pipes through the top. Instead, it prevents the passage of the catalyst particles into the bottom side. Between the above pairs of the aforementioned flat metal plates of downward channels. 6.Methods for regeneration of the degraded catalyst particles used in the resulting hydrocarbon transformation reaction include (a) through the passage of the degenerated catalyst particle to the combustion zone, by It relies on gravity, which keeps it at the oxidizing temperature of the coke. The reaction is exposed to recirculating gas containing oxygen; (b) through the catalyst which leaves the aforementioned combustion zone to the catalyst drying zone, by means of gravity, here the water is removed from the catalyst as say; (c) The passage of the catalyst particles exiting from the catalyst drying zone mentioned to the cooling zone catalytic degradation, where the cooling zone is positioned in the The same bucket with the field of drying; (d) compressed air taken from the atmosphere to a higher pressure; (e) cooling such compressed air stream and passing it to the air drying zone, where water is removed from the air therein; (f) the passage of such cool and dry air currents upward to the aforementioned catalyst cooling zone. In a reverse contact with the aforementioned catalyst, in this way the catalyst is cooled And to heat the aforementioned air currents; (g) heating such air stream Until the oxidizing temperature of the coke, after it exits the catalyst cooling zone mentioned above, in the air heating zone which provides pipes or parts for heating. And positioned in the same tank as the aforementioned catalyst cooling zone; (h) the passage of such air currents exiting from the aforementioned air heating zone up to the catalyst drying zone mentioned above. In a counter-contact manner with the catalyst, the catalyst drying zone is positioned in the same tank as the catalyst cooling zone (i) through the air stream exiting the region of the catalyst (i). Drying the foregoing into the aforementioned combustion zone. And where the mixing of such air currents with gases distributed from the aforementioned catalyst in the combustion zone to form a fluid flow; And (j) conduction of the fluid current from the combustion zone, draining part of the flue gas from the regeneration system, and passing the second into contact with the catalyst. On the mat, the condition in the combustion zone is a recirculating gas.