RU2020110560A - ABSORBER - Google Patents

Claims (1)

An absorber containing a vertical cylindrical body with inlet and outlet pipes for gas, horizontal mass transfer trays, a sprinkler and a droplet separator in the form of two horizontal baffles, between which droplet shells are concentrically placed, a piston suspended on a spring is placed in the central shell, the gap between the baffles is provided with at least one additional horizontal partition and a vertically installed radial wall, forming two chambers bounded in height by the upper and lower partitions, one of which communicates with the cavity of the central shell through a window made to the entire height of this chamber, and is equipped with inlet windows into the channels between the shells, and the second chamber is equipped with outlet windows of these channels and a central outlet window made in the upper partition, the sprinkler nozzle is made with a double conical swirler, and contains a cylindrical hollow body with a channel for fluid supply, in which it is fixed the atomizer, consisting of three throttling elements, the atomizer is made in the form of oppositely arranged tops and axisymmetric hollow conical swirlers: upper and lower, while the conical shell of the lower swirler is fixed by means of at least three spokes fixed at one end on the conical shell of the lower swirler, in its upper part, and the other end - in the annular groove of the nozzle channel, made on its inner surface, and the top of the conical surface of the conical shell of the upper swirler is attached to a circular perforated plate installed in the annular groove of the nozzle channel and resting on the top of the lower swirler , fixed in the nozzle channel by means of spokes, while on the outer surfaces of the hollow conical swirlers, through screw threads are made, and the throttling effect of the atomizer as a whole is determined by the total throughput of its constituent elements, and to obtain finely dispersed th spray, the total throughput of the upper swirler and the perforated plate is made greater than that of the lower swirler, characterized in that a diffuser is coaxially attached to the lower end surface of the cylindrical hollow nozzle body, made in the form of a surface of a truncated pyramid with a base in the form of a polygon, to which it is rigidly attached a nozzle consisting of three coaxial, coaxially located pyramidal shells in the form of generating grids with bases equidistant to the base of the truncated pyramid of the diffuser: external, intermediate and internal, while the generating nozzles in the form of truncated pyramidal surfaces are located in such a way that all the vertices of their pyramidal surfaces lie on the axis coinciding with the axis of the nozzle body, and the direction of the top of the outer generating grid is directed towards the diffuser, the perforation of the nozzle on the outer shell, from the side of attachment of its truncated pyramidal surface to the diffuser m, is made with a finer pitch and a large diameter of holes that enhance the ejection effect, the perforation of the inner shell of the nozzle on the base, facing away from the diffuser, and made in the form of a square, has a larger diameter of the holes, which enhance the ejection effect and the range of the sprayed flow , in this case, a perforated plate is fixed on the coaxially located pyramidal shells, which performs the functions of an additional divider for the flow of the outgoing liquid, or the nozzle of the sprinkler is made acoustic, containing a body consisting of a cylindrical part for supplying liquid and a tube for supplying compressed air, while in the body of the nozzle, coaxially to it, a cylindrical opening for fluid supply is made, in the upper part of which a mesh filter is installed, and in the lower part a throttle washer with a nozzle is installed, while a liquid flow divider made in the form of two x coaxially located conical perforated surfaces, at the top of which there is a Helmholtz resonator in the form of an axisymmetric spherical surface with resonator bushings located perpendicular to the nozzle axis, while the cut of the resonator bushings is located in the cavity of the conical perforated surfaces of the divider.