SU1562009A1 - Arrangement for washing sediment layer - Google Patents

Abstract

The invention relates to the filtration of liquids and can be used to wash a layer of sediment on a filtering surface, such as saturation deposits on vacuum filters in the sugar industry. The goal is to improve the quality of washing the sediment and reduce the consumption of wash water. A device for washing the sediment layer includes a housing, a side nozzle and a vortex chamber with a confuser-shaped nozzle, while the vortex chamber is designed as a sleeve with tangential inlet channels and installed to adjust its position along the axis. The device has a cylindrical rod mounted in the housing coaxially with the sleeve, with sharp edges connected to the inner surface of the vortex chamber. 1 il.

Description

R

(21) 6319 / 30-26

(22) 07.19-888

) 07.05.90. Bul N ° 17

(71) All-Union Scientific Research Institute of the Sugar Industry

(72) P.M.Barabanov and A.F. Nemchin (53) 66.067.32A (088.8)

(56) Maksimuk P.S. Washwater sprayers for vacuum filters in the sugar industry. - M .: TsINTIPi

, shcheprom, 1969, p. 11-12.

(DEVICE FOR WASHING LAYER SEDIMENT

(57) The invention relates to the filtration of liquids and can be used to wash the sediment layer on

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filtering surfaces, such as saturation deposits on vacuum filters in the sugar industry. The goal is to improve the quality of washing the sediment and reduce the consumption of wash water. A device for washing the sediment layer includes a housing, a side nozzle and a vortex chamber with a confuser-shaped nozzle, while the vortex chamber is designed as a sleeve with tangential inlet channels and installed to adjust its position along the axis. The device has a cylindrical rod mounted in the housing coaxially with the sleeve, with sharp edges connected to the inner surface of the vortex chamber. 1 ILO

with SS

The invention relates to the field of filtration of liquids and can be used as a device for washing a layer of sediment on a filtering surface (for example, saturation deposits on vacuum filters in the sugar industry).

The purpose of the invention is to improve the quality of washing and reduce the consumption of wash water.

The drawing shows a device for washing precipitation, a cut.

The device includes a housing 1, a side nozzle 2, a vortex chamber 3 installed with the possibility of adjusting the axial position along the thread k. On the vortex chamber, the central nozzle 5 is made in the form of confuser and

tangential input channels 6 in the upper part of the vortex chamber.

Coaxially with a cylindrical cavity 7 of the vortex chamber on the housing 1 there is a cylindrical rod 8 with sharp edges connected to the inner surface. The rod 8 can move in the cylindrical cavity 7 of the vortex chamber while axially moving the vortex chamber 3. In this case, the sharp edges of the rod 9 can partially block the cross section of the input tangential channels 6. The device body 1, the rod 8 and the vortex chamber 3 form an annular chamber 10.

The device works as follows.

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Water under pressure flows through the side outlet 2 into the housing 1. In this case, heavy solids are partially separated from the main fluid flow. The pressurized fluid flows through the tangential inlet channels 6 into the vortex chamber where the flow of fluid is twisted and sprayed through the nozzle 5.

When the sharp edges flow around the rod 9, cavitation cavities are formed in the fluid flow, the tail parts of which oscillate, disintegrating into many small cavitation bubbles. In the zone of increased pressure (at the exit of the nozzle 5), cavitation bubbles collapse with the formation of high-speed cumulative microstructures.

The cumulative effect of microstructures ensures homogeneous fine disintegration of the cone-shaped liquid film exiting the nozzle 5. The cavities on the sharp edges 9 cause deformation of the swirling flow in the vortex chamber 3, more uniform filling of the cylindrical cavity 7 of the vortex chamber with liquid, as well as more uniform filling with liquid droplets spray gun.

The axial movement of the vortex chamber along the thread 4 allows the sharp edges of the rod 8 to move along the section of the input tangential channels 6, which provides control of the flow rate of the device, allows you to adjust the cavitation mode, and

also provides the possibility of a periodical stem with sharp edges,

cleaning of tangential input channels from heavy impurities in

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fluid. The nozzles 5 of the vortex chamber provide self-cleaning of the device from small particles (impurities contained in the liquid).

The device allows, through the use of the hydrodynamic cavitation mode, to increase the efficiency of the spray of a liquid, to achieve a more uniform filling of the spray cone with droplets. The design of the vortex chamber 3 of the device allows the flow coefficient to be adjusted and ensures that the device is self-cleaning from solid impurities.

Studies have shown that the device, when installed on a drum vacuum filter, reduces the amount of sugar loss with filter cake to a standard value while reducing the consumption of wash water by 20-30% compared with typical devices.

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25 claims

A device for washing the sediment layer, comprising a housing, a side nozzle and a vortex chamber with a nozzle in the form of a confuser, characterized in that, in order to improve the quality of washing the sediment and reduce the consumption of wash water, the vortex chamber is made in the form of a sleeve with tangential inlets and installed with the possibility of adjusting its position along the axis, while the device is equipped with a cylinder-head mounted in the housing coaxially

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five

conjugated by tewing vortex

from the inner surface of the camera.

Claims (1)

Claim A device for washing the sediment layer, comprising a housing, a side nozzle and a vortex chamber with a nozzle in the form of a confuser, characterized in that, in order to improve the quality of washing the precipitate and reduce the flow rate of the washing water, the vortex chamber is made in the form of a sleeve with tangential inlet channels and is installed with the possibility of adjusting its position along the axis, while the device is equipped with a cylindrical rod installed in the housing coaxially with the sleeve with sharp edges mating with the inner surface of the vortex chamber.