RU2102115C1 - Jet-inertial dust separator - Google Patents

Abstract

FIELD: air cleaning from dry medium and coarse dust particles, for instance, dust of building materials in systems of aspiration and pneumatic transport. SUBSTANCE: dust-laden air is supplied through flat nozzle tangentially to convex curved surface. Formed jet sticks to this surface and spreads along it in accordance with Koanda effect. The largest dust particles under the inertia forces are taken out from jet to get into bin. To clean air from fine particles and withdraw cleaned air, installed on the way of jet is wall and guide shield with slot between them. Cleaning efficiency may reach 65-99% depending on dust characteristics. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to techniques for air purification from dry medium and coarse dust, in particular dust of building materials.

 Currently, inertial dust collectors have become widespread in the technique of dry air cleaning from dust; the main disadvantages of most of them are high aerodynamic drag, for example, for cyclones, or low dust cleaning efficiency.

A centrifugal dust separator is known in which dusty gas moves in a curved gas duct and dust particles move to the peripheral wall under the action of centrifugal forces and fall to a roll rotating at a flow rate. Having reached it, they continue smooth, continuous motion along the surface of the rotating roll into the hopper. The purified gas at the entrance to the hopper loses speed, is cut off by a divider and is removed from the apparatus [1]
The disadvantage of this device is the use of a rotating roll, which complicates the design and requires energy for the operation of the engine, which drives the roll in motion.

Known jet-inertial dust collector containing located at an angle to the horizontal axis of the slotted nozzle for supplying a gas stream, oriented downward tangentially to a convex curved surface located adjacent to the upper part of the nozzle, the wall of the deposition chamber, the guiding shield [2]
This invention is aimed at solving the problem of cleaning air from dry dust, for example from dust of building materials, while reducing energy consumption during operation, simplicity of design and low cost compared to the known inertial dust collectors.

 The drawing shows a longitudinal section of a dust collector.

 The dust collector contains a receiver 1 of dusty air, a nozzle 2, a convex curved surface 3, a device 4 for removing cleaned air, a dust bin 5, a shield 6, a slot 7, a wall 8 of the deposition chamber.

 The dust collector operates as follows.

 Dusty air enters the device 1 and flows out of the nozzle 2. The air stream “sticks” to the convex curved surface 3 and spreads along it in the circumferential direction according to the Coanda effect. Under the action of centrifugal forces, dust particles fly out of the jet and fall into the hopper 5. After separation from the curved surface, the flow propagates according to the laws of a conventional flooded turbulent jet. When the jet flows on the wall 8, at an arbitrary angle in the stream, a dividing stream line 9 is established. Purified air with a low dust concentration located above this line enters the device 4. A stream with a high concentration of dust flows down from the dividing line along the surface of the vertical wall 8 and through the gap 7, part of the dust is removed from it. To create a circulation zone of the flow and eliminate the breakthrough of this stream, a guide plate 6 is installed on the wall on the wall, flowing down from which the contaminated air collides with the peripheral part of the main stream. In this case, a secondary low-pulse jet 10 is formed, from which part of the contaminated stream leaves and a significant amount of dust is carried into the hopper. The rest of the dusty stream is carried away by the periphery of the main stream and, without crossing the dividing stream line 9, rises up, creating a closed circulation flow 11. Due to the action of centrifugal forces in it and the formation of a secondary stream in the zone of disruption of the polluted stream from the shield 6, dust particles are intensively removed from flow into the hopper.

 The linear velocity at the exit of the nozzle reaches 30 40 m / s. The degree of purification can be 65,99 depending on the characteristics of the dust.

Claims (1)

 An inertial inertial dust collector comprising a slit nozzle for supplying a gas stream located at an angle to the horizontal axis, oriented downward tangentially to a convex curved surface located adjacent to the upper part of the nozzle, a wall of the deposition chamber, a guiding flap, characterized in that the wall of the deposition chamber is arranged vertically opposite the output section of the nozzle with the possibility of forming a dividing line of current in the stream, while the guide plate is located below the dividing line of current with the development of a gap with respect to the lower edge of the wall and at an angle to the latter.