RU2013158079A - METHOD FOR SPRAYING A LIQUID AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. A method of spraying liquid, comprising the steps of: air being tangentially supplied to the upper part of the vortex chamber, swirling it into a direct vortex stream, the parameters of which are selected so that ejection of the liquid from the nozzle of the sprayed liquid in the lower part of the vortex chamber is ensured, the liquid is dispersed for due to the dynamic effect of the air flow on the liquid, an air-liquid torch is output through a nozzle channel made in the side wall of the vortex chamber, characterized in that a rotating layer is formed fluids whose thickness S, measured in the radial direction from the side wall of the vortex chamber, gradually decreases in the direction from the bottom of the vortex chamber, the parameters of the air flow supplied to the vortex chamber are chosen so that the region of the smallest thickness S of the rotating liquid layer on the side surface of the vortex chamber essentially at the level of the nozzle channel, a part of the air is removed from the vortex chamber through the exhaust air outlet pipe, the flow rate of the air discharged from the vortex chamber is adjusted for echeniya zhidkosti.2 given degree of dispersion. A device for spraying a liquid containing a vortex chamber, a nozzle for supplying compressed air located tangentially in the upper part of the vortex chamber, means for swirling the flow of supplied air, a nozzle for supplying atomized fluid located in the lower part of the vortex chamber, a nozzle channel for outputting an air-liquid torch, in the side wall of the vortex chamber, characterized in that it is provided with an outlet pipe located in the upper part of the vortex chamber

Claims (5)

1. A method of spraying a liquid, comprising the steps of: air is tangentially fed into the upper part of the vortex chamber, twist it into a direct vortex flow, the parameters of which are selected so that ejection of liquid from the nozzle for supplying the sprayed liquid in the lower part of the vortex chamber is ensured, dispersing liquid due to the dynamic effect of air flow on the liquid, the air-liquid torch is removed through a nozzle channel made in the side wall of the vortex chamber, characterized in that form a rotating fluid layer, the thickness S of which, measured in the radial direction from the side wall of the vortex chamber, gradually decreases in the direction from the bottom of the vortex chamber, the parameters of the air flow supplied to the vortex chamber are selected so that the region of the smallest thickness S of the rotating liquid layer on the side surface of the vortex chamber is essentially at the level of the nozzle channel, part of the air is removed from the vortex chamber through the exhaust air outlet pipe, adjust the flow rate of air discharged from the vortex chamber to provide a given degree of dispersion of the liquid. 2. A device for spraying liquid containing a vortex chamber, a compressed air supply pipe located tangentially in the upper part of the vortex chamber, a means for swirling the supplied air flow, a spray liquid pipe located at the bottom of the vortex chamber, a nozzle channel for outputting an air-liquid torch made in the side wall of the vortex chamber, characterized in that it is equipped with an exhaust air outlet pipe and a flow regulator located in the upper part of the vortex chamber Wow air. 3. The device according to claim 2, characterized in that the ratio of the diameter (D _o ) of the exhaust air outlet pipe to the diameter (d ₁ ) of the compressed air supply pipe is 2.0 ÷ 2.5. 4. The device according to any one of paragraphs. 2 or 3, characterized in that the vortex chamber has the shape of a truncated cone tapering downward, while the ratio of the large diameter (D ₂ ) of the truncated cone to its small diameter (D ₁ ) is 1.1 ÷ 1.4, and the ratio of length (L ) vortex chamber to a small diameter (D ₁ ) of the truncated cone is 2.0 ÷ 4.0. 5. The device according to p. 2, characterized in that the exhaust air flow regulator is additionally equipped with a silencer.