SU1722539A1 - Device for removal of dispersed particles from water flow - Google Patents

Abstract

The invention relates to the field of energy, namely, systems of network and process water for the removal of large dispersed particles contained in them, and allows to increase the efficiency of separation of dispersed particles from the stream and, as a result, to increase the inter-treatment resource of equipment. The device for removing dispersed particles from the water flow contains a pipe 1 with a tap, longitudinal stabilizers 2 flows installed on the outer wall of the tap and a fairing 3 attached to the inner wall of the tap, and the device for collecting contaminants is made in the form of a jacket 4 with a tank 5 valve 6. The size of the entrance slit shirt (L S

Description

when the device is operated without purging, it is determined by the dependence n (0.05-0.1) dip, where dTp is the diameter of the pipeline. f-ly, 3 ill.

(0.4-0.6) -dTp. 2

The invention relates to power engineering, namely, to system and utility water systems for the removal of large dispersed particles contained in them.

Designs of devices are known that use centrifugal forces arising from the swirling of a stream (cyclones, centrifugal separators) for removing dispersed particles from a stream.

However, all these devices have high hydraulic resistance.

Closest to the present invention is a device for removing dust from a gas stream, consisting of an arcuate channel with a 180 ° rotation of the stream in a vertical plane, in the lower part of which a container for collecting dust is placed. The presence of dividers, having an aerodynamic shape and positioned one below the other by the gas flow, contributes to the efficiency of the device.

In power systems, tie-ins at the bends are unacceptable; therefore, it is impossible to place a container for collecting contaminants at the turn of the water flow. In the retraction section, when the flow is rotated, transverse circulation occurs, mixing reduces the removal efficiency of contaminants.

The aim of the invention is to increase the efficiency of separating dispersed particles from the stream and consequently increase the inter-treatment resource of the equipment. .

The goal is achieved by the fact that the proposed device is equipped with longitudinal stabilizers uniformly distributed over the cross section of the outlet and attached to its outer wall, which stabilize the flow, preventing transverse circulation.

A device for collecting contaminants and bringing them to the storage tank is made directly after turning the flow on a horizontal pipe section in the form of a shirt, which has an entrance slit and provides transportation of contaminants to a special storage unit that is taken out of the outlet limits. The storage tank is equipped with purge valves for resetting contamination. There are two possible modes of operation of the accumulator accumulator: the mode of periodic purging of soils through the valve as the accumulator is filled or the part of the water is continuously purged through the valve, during which the flow in the gap between the jacket and the pipe becomes isokinetic with the main flow, and this

provides an increase in the efficiency of the device. To increase the level of centrifugal forces, the design uses a fairing, which is a curved sheet of streamlined shape, attached to

inner wall of the outlet. Its effect is to constrict the flow area at which the flow rate increases and the turning radius decreases.

FIG. 1 shows a common device

view; FIG. 2 is a view A of FIG. one; on fig.Z - dependence of the output number of suspended particles to their total content in the stream (efficiency) on the size of the shirt gap, related to the pipe diameter, and the bottom curve corresponds to the cleaning mode without blowing, and the top - with a part of water blowing through the shirt gap and gr yaw drive.

The device for removing dispersed particles from the stream contains a pipeline 1 with a 90 ° outlet, inside which stabilizers 2, a fairing 3, a jacket 4 are placed. Outside the outlet along the stream in the lower part of the pipeline 1, a storage tank 5 with a purge valve 6 is embedded .

The device works as follows.

The flow of water contaminated with suspended particles, the passage through the outlet 1, is compressed by the fairing 3. In this case, the water speed increases, and with a smaller radius of flow, also organized by the fairing 3, the centrifugal increases

the force acting on the suspended particles, their withdrawal from the flow to the outer wall of the outlet. Transverse circulations do not interfere with the uniform deposition of particles, since their action is limited to stabilizers 2. Particles are caught in the outer wall of the outlet wall by the slot of the jacket 4 and in the gap between the jacket 4 and pipe 1 are transported to the storage tank 5. Trapped soils through

valve 6,

The proposed device provides low hydraulic resistance in comparison with cyclones and centrifugal

separators, low installation and operating costs due to the fact that the elements of the device can be mounted in a standard pipeline, having in the scheme the necessary drain. In addition, the use of the device in circulation systems containing a large number of suspended particles contributes to an increase in the inter-treatment resource of the equipment.

Claims (3)

1. A device for discharging dispersed particles from a stream of water, comprising a tap, a fairing and a device for collecting contaminants, characterized in that, in order to increase the efficiency of separation. 2 dispersed particles, it is equipped with longitudinal flow stabilizers mounted on the outer wall of the outlet, and a fairing attached to the inner wall of the outlet, and the device for collecting contaminants is made in the form of a shirt with an accumulator and a valve. 2. The device according to claim 1, characterized by the fact that the size u of the entrance slit shirt ki is determined by dependency Cts (0.05-0.1) dtp, where dTp is the diameter of the pipeline. 3. The device according to claim 1, about tl and ch yu eu-S so. what's with the purge mode the size of the entrance slit of the shirt is determined by u - (0.4-0.6) dip. about - the selection of des ls ode & md - from $ op with / rpofyfaou Fig.Z 0.1 0.2 OJ 44 0.5 0.6 0.7 0.8 0.9 ffO