RU2021118040A - RADIAL FLOW ADSORPTION TANK WITH INTEGRATED LOADER - Google Patents

Claims (24)

1. Adsorption tank with radial flow, containing: a cylindrical outer shell having an upper end and a lower end, the upper end being closed by a container lid that provides a centric opening suitable for use as a port for introducing adsorbent particles into or removing them from the container; at least one annular adsorption space located inside the shell, which can be filled with adsorbent particles, and at least one annular adsorption space is limited by external and internal cylindrical porous walls, both of which are located coaxially inside the shell; and an adsorbent particle feeder disposed above at least one annular adsorption space at the upper end of the container, the feeder comprising at least one conical element that extends radially to the outer cylindrical porous wall, and wherein at least one conical the element is provided with a plurality of nozzles located at least in the area located above at least one annular adsorption space. 2. A radial flow adsorption container according to claim 1, characterized in that at least one conical element provides a taper angle that is greater than the angle of repose of the adsorbent. 3. Adsorption container with radial flow according to claim 1, characterized in that at least one conical element is rigidly connected to the lid of the container by means of a plurality of support elements. 4. Adsorption vessel with radial flow according to claim 3, characterized in that the edges of the supporting elements, pointing in the direction of filling with adsorbent particles, are narrowed. 5. Adsorption container with radial flow according to claim 1, characterized in that the lid of the container has a hemispherical, torispherical, conical, flat or other shape. 6. An adsorption container with a radial flow according to claim 5, characterized in that the lid of the container has a conical shape with a taper angle that is greater than the angle of repose of the adsorbent. 7. Adsorption container with radial flow according to claim 3, characterized in that the length of the support elements is chosen in such a way as to obtain a uniform axial distance between the upper side of the conical element and the lower side of the conical lid of the container. 8. The radial flow adsorption container according to claim 1, characterized in that at least one conical element provides a centric port, which is a closable lid element. 9. Adsorption container with radial flow according to claim 1, characterized in that at least one conical element is hermetically connected to the outer cylindrical porous wall, preferably by means of a conical shelf element. 10. The radial flow adsorption container according to claim 1, comprising at least one fluid-permeable screen located coaxially between the outer and inner cylindrical porous wall, and at least one fluid-permeable screen separates at least one annular adsorption space on the outer annular adsorption space and the inner annular adsorption space, and the conical element provides nozzles only in the area located above the outer annular adsorption space. 11. The radial flow adsorption container according to claim 10, characterized in that at least one fluid-permeable screen is axially spaced from at least one conical element, so that between the proximal end of the fluid-permeable screen and the bottom side the conical element forms a gap. 12. The radial flow adsorption vessel of claim 10, wherein the nozzles are offset radially outward from the fluid-permeable screen such that when filled with adsorbent particles, they are plugged before the adsorbent flows through the screen. 13. Adsorption container with radial flow according to claim 10, characterized in that the outer annular adsorption space contains one or more screens with large holes located in its upper part. 14. The radial flow adsorption container according to claim 10, characterized in that the loading device comprises at least one additional conical element, which is located below the first conical element and which extends radially or is connected to a fluid-permeable screen, and at least one additional conical element provides a plurality of nozzles located at least in the area located above the inner annular adsorption space. 15. The radial flow adsorption container of claim 14, comprising at least one additional fluid-permeable screen located coaxially between the first fluid-permeable screen and the inner cylindrical porous wall, the at least one additional fluid-permeable screen separating the inner annular adsorption space into first and second inner annular adsorption spaces. 16. Adsorption container with radial flow according to claim 15, characterized in that the loading device contains at least one additional conical element, which is located below the second conical element and which extends in the radial direction or is connected to the second permeable screen, and at least one additional conical element provides a plurality of nozzles located at least in the area located above the second inner annular adsorption space. 17. The method of filling the adsorption tank with a radial flow, which includes the steps: providing a radial flow adsorption tank according to claim 1, and filling the annular adsorption space with adsorbent particles. 18. An adsorption method, characterized in that the radial flow adsorption container according to claim 1 is filled with adsorbent particles and used. 19. The adsorption method according to claim 18, wherein the method is a variable temperature, pressure and/or pressure swing adsorption method.