KR970703807A - Catalyst Support and How to Use It - Google Patents

Abstract

The light-weight and easy to manufacture catalyst support structure allows fluids to flow through the catalyst bed in a single distribution. The support structure has a cone shape with a larger diameter. The support structure includes a shell-like support member 26, a first mesh layer 28a comprising a thick mesh element, and a second mesh layer 28b having a mesh size that does not allow passage of catalyst particles. The first mesh layer covers the support member and the second mesh layer covers the first mesh layer. The shell-like support member comprises a circular bottom plate 25 vertically arranged at the center line of the reactor 11, and sidewalls 26 having a truncated cone extending upwardly from the edge of the bottom plate. The bottom plate and sidewall are made of a perforated plate having a hole 222 through which the fluid primarily passes. A number of different diameter cylindrical flow guides 27 are provided under the shell-like support member.

Description

Catalyst Support and How to Use It

Since this is an open matter, no full text was included.

1 is a partial view showing the support structure of the present invention in plane along the center line of the reactor.

Claims (22)

a) a truncated circular shape that includes a circular bottom plate that is in contact with the reactor, is enlarged in a circular bottom plate, connected to a porous conical plate with a large number of holes on the surface, and is located perpendicular to the center line of the reactor. Shell-like conical support members having; b) a first mesh layer covering the shell-like support member; And c) a support for moving the bed of catalyst particles in a substantially cylindrical reactor having a second mesh layer covering the first mesh layer and having an opening small enough to block passage of the catalyst particles through the second mesh layer. Catalyst support structure. The method of claim 1, wherein the holes in the conical plate are large enough to allow passage of the catalyst particles, the first mesh layer has openings to allow passage of the catalyst particles, and have different diameters centered under the shell-like support member. Catalyst support structure further comprising a plurality of lower flow guides consisting of a ring having. a) a conical and branched up porous conical support member cut by a bottom plate; and b) one or more top streams extending above and contacting the conical support member that are high above the conical support member sufficient for fluid to flow into the forefoot catalyst bed. Catalyst support structure for use in a substantially cylindrical reactor comprising a catalyst bed comprised of guides. 4. The conical support member of claim 3, wherein the conical support member is a cell-like plate having a plurality of holes of sufficient size to pass a rising stream of fluid distributed on the surface of the conical support member, the upper flow guide being in contact with the shell-like plate. A catalyst support structure comprising an upper flow guide centered above and comprising a plurality of rings of different diameters coaxial with the bottom plate. 5. The catalyst support structure of claim 4, wherein the bottom plate is substantially circular and is perpendicular to the centerline of the reactor. 6. The catalyst support structure of claim 5, wherein the bottom plate is free of holes. 6. The catalytic support body according to claim 5, wherein the bottom plate comprises a porous portion. 8. The bottom plate screen of claim 7, wherein the perforated portion of the bottom plate is covered with one or more bottom plate screen members, the perforated portion of the bottom plate having holes of sufficient size to allow passage of catalyst particles through the bottom plate. A catalyst support structure containing holes sized to allow a member to block passage of catalyst particles through a bottom plate screen member. 5. The screen member of claim 4, further comprising at least one screen member covering the conical support member, wherein the screen member prevents passage of the catalyst particles through the screen member but has a size large enough to allow passage of the ascending stream of fluid. Catalyst support structure comprising a. 10. The method of claim 9, comprising a first weave mesh layer covering the porous conical support member, and further comprising a second weave mesh layer having openings sufficient to block passage of the catalyst particles through the second weave mesh layer. Catalyst support structure. 10. The catalyst support structure of claim 9, wherein each screen member is located between adjacent mutual flow guides. 10. The catalyst support structure of claim 9, wherein the screen member is connected to the top surface of the porous conical support member and the connection is provided to the interflow guide. 13. The catalyst support structure of claim 12, wherein the connection is welded. 5. The plurality of substantially concentric, cylindrical cylinders of claim 4, wherein each lower flow guide is coaxial with the bottom plate and is radially spaced apart from one another to form a plurality of central circular rings and is arranged downward and abuts the bottom surface of the conical support member. A catalyst support structure further comprising a bottom flow guide. 15. The catalyst support structure of claim 14, wherein the inner diameter of the reactor is 3 to 8 m. A) a reactor comprising a catalyst introduced into the top of the reaction zone and recovered to the bottom of the reaction zone, hydrocarbons and hydrogen introduced into the bottom of the reaction zone, and converted hydrocarbons recovered from the top of the reaction zone A perforated conical support member branching off of a truncated cone; And b) a catalytic support structure in a substantially cylindrical reactor containing a catalyst support structure comprising at least one upper flow guide contacting the conical support member with a height above the conical support member sufficient to direct the flow of fluid into the catalyst bed. The cell-like plate of claim 16, wherein the conical support member is a cell-like plate having a plurality of holes of sufficient size to pass a rising stream of fluid distributed on the surface of the conical support member, the upper flow guide being in contact with the shell-like plate. A top flow guide consisting of a plurality of rings of different diameters coaxial with the bottom plate, centered above, wherein the bottom plate is substantially circular and located perpendicular to the centerline of the reactor. The method of claim 16, wherein the bottom plate is free of holes. 18. The screen member of claim 17, wherein the screen member is sized to block passage of the catalyst particles through the screen member but to pass through the ascending fluid phase, wherein the screen member is connected to the upper surface of the porous conical support and the connection is an upper flow guide. And a catalyst support structure further comprising at least one screen member covering the conical support member. The bottom of the conical support member according to claim 19, wherein the diameter of the reactor ranges from 3 to 8 m, each lower flow guide coaxially with the bottom plate and radially spaced apart from one another to form a plurality of central circular rings and the bottom of the conical support member. The catalyst support structure further comprising a plurality of substantially concentric, cylindrical bottom flow guides folded over the surface. a) a shell-like conical plate with holes large enough to allow the conical support member to pass through an ascending stream of fluid, distributed over multiple surfaces of the porous conical support member, with a truncated cone shaped by a circular bottom plate A branched porous cone support member above; And b) a plurality of vertical rods provided with a weld string for upward flow of fluid into the moving catalyst bed in the reactor, the screen member being covered with one or more weld streams connected to the cone support member and across the bearing rod member. A catalyst support structure for supporting a moving bed of catalyst particles in a substantially cylindrical reactor in which fluid phase flows upwardly, comprising a screen consisting of members. 22. The plurality of substantially concentric, cylindrical portions of claim 21, wherein each of the lower flow guides are coaxial with the bottom plate and are radially spaced apart from one another to form a plurality of mesocyclic rings and are arranged downward and abut the bottom surface of the conical support member. A catalyst support structure further comprising a bottom flow guide. ※ Note: The disclosure is based on the initial application.