RU2019130270A - HORIZONTAL ADSORBER - Google Patents

Claims (2)

1. A horizontal adsorber containing a cylindrical body with covers and a bottom, the covers are spherical and mounted to the left and right of the horizontally located cylindrical body, in the upper part of which there are loading hatches with safety membranes, a connection for removing vapors during desorption and a connection for a safety valve, and in the left cover there is a fitting with a distribution grid for supplying a vapor-air mixture during adsorption and air during drying and cooling, in the middle part of the body on beams with supports supporting a collapsible grate, on which a mesh layer is laid, an adsorbent layer is placed, and on the upper mesh , covering the adsorbent layer, weights are placed to prevent the carryover of the adsorbent during desorption, and the unloading of the spent adsorbent is carried out through at least two unloading hatches, located symmetrically relative to the vertical axis of the body, in the bottom of which there is an inspection hatch with a fitting for opening Condensate water and water supply, as well as a bubbler with a nozzle for water vapor supply, the bubbler is made along the entire length of the body in the form of at least one perforated cylindrical pipe and fixed to the bottom surface by means of spacers, and the coefficient of perforation of the cylindrical surface of the bubbler is optimal the range of values: K = 0.5 ... 0.9, and the ratio of the length L of the cylindrical part of the body to its diameter D is in the optimal ratio of values: L / D = 1.5 ... 5.0; the ratio of the length L of the cylindrical part of the body to the thickness S of its wall is in the optimal ratio of values: L / S = 300 ... 1125; the ratio of the height of the adsorbent layer H ₁ to the length L of the cylindrical part of the body is in the optimal ratio of values: H ₁ / L = 0.05 ... 0.27, characterized in that the adsorbent is made in the form of a cylindrical ring, on the side, inner surface of which partitions are fixed in the form of washers with holes perpendicular to the ring axis, the axes of which are asymmetric to the ring axes, or the adsorbent is made in the form of a block inscribed in the circumference, consisting of seven hexagonal parallelepipeds interconnected by side faces without upper and lower bases, or the adsorbent is made in the form of interconnected screw spirals inscribed into a spherical surface with a center lying on the axis of the connection of the spirals, or the adsorbent is made in the form of at least twelve three-blade propellers connected to a block, the projection of which on the drawing plane fits into a circle with a center coinciding with the center of one of them, or the adsorbent is made in the form of a block inscribed in the circumference, consisting of seven interconnected side faces of hexagonal parallelepipeds with upper and lower perforated bases, the perimeters of which are equidistant in shape with the perimeters of the bases of the lateral faces of hexagonal parallelepipeds, and the perforation coefficient of the bases is not more than 70%, while the cavities of the hexagonal parallelepipeds with upper and lower bases filled with inert bodies in the form of a ball, on the surface of which blind holes of a hemispherical shape are made, while the dimensions of the inert bodies are 10% larger than the dimensions of the perforation of the bases of the hexagonal parallelepipeds. 2. Horizontal adsorber according to claim 1, characterized in that the inert nozzle is made in the form of a perforated shell of an ellipsoid of revolution with a perforation coefficient of not more than 70%, the cavity of which is filled with inert bodies in the form of at least twelve, connected in a block of three-blade propellers, projection which on the plane of the drawing fits into a circle with a center coinciding with the center of one of them, while in the center of the shell of the ellipsoid of revolution there is a perforated spherical shell with a perforation coefficient of not more than 70%, the cavity of which is filled with inert bodies in the form of a ball, on the surface of which blind holes of a hemispherical shape, while the dimensions of inert bodies are 10% larger than the dimensions of perforations, or in the form of a perforated shell of an ellipsoid of revolution, in which, along with a nozzle in the form of three-blade propellers and a perforated spherical shell with inert bodies in the form of a ball, bodies in the form of a ball are placed, on the surface of which not through holes of hemispherical shape, having smaller dimensions, allowing the most compact filling of the perforated shell of the ellipsoid of revolution.