RU92012645A - MASS-EXCHANGE COLUMN WITH LOW HYDRAULIC RESISTANCE FOR BIG SPECIAL LOADS ON LIQUID - Google Patents

Claims (1)

Use: for systems, gas (vapor) is a liquid intended for the processes of absorption, rectification, gas washing and can be used in chemical, petrochemical, gas and other industries. The purpose of the invention is to increase the efficiency of mass transfer, increase the productivity of gas (steam) with a simultaneous decrease in the hydraulic resistance to gas flow (steam) at high specific loads on the liquid of the order of 100 m ³ / m ² h and above. The inventive mass transfer column comprising a vertical cylindrical body with belt perforated grids along the height of the column and layers of nozzles on the grids, the gratings are made in the form of inclined steps alternately in diametrically opposite directions in adjacent height gratings, the adjacent steps of the grids overlap each other , the rear and side edges of the steps in the direction of the slope of the lattice have flanging upward for fluid retention, each step of the lattice is made with a slope under the The arched slots are convex upward with axes directed toward the slope of the stepped grating, on the inclined stepped gratings and grids in the lower part of the inclined grate are vertically mounted with dense packing elements of the same height of the screw cap made of polymeric materials , perforated stepped gratings are installed on spacer elliptical split rings, to the end of which are fixed stop plates, to one of which a stop screw is attached passing freely into the hole of the other plate, on both sides of which the nuts are screwed onto the stop screw so that the nut between the stop plates is screwed all the way into the plate and the spacer elliptical ring is tightly pressed to the inner walls of the column; rings and down relative to the plane of the spacer ring. The column has a stepped inclined grate with a slope of gratings adjacent in height in diametrically opposite directions, with arched slots in the steps and a grid in the lower steps for draining large volumes of liquid.