SU1540849A1 - Method and apparatus for cleaning porous and capillary filter element - Google Patents

Abstract

The invention relates to methods and devices for cleaning porous capillary filter elements and allows to intensify the process. The method consists in that the filter elements are placed in the acoustic bath 1, create an ultrasonic field and a directed flow of washing liquid, simultaneously part of the washing liquid is cooled in the cooler 8 and then dispersed in the remaining washing liquid by means of dispersants installed before or inside the filter element 2 s . and 3 z. p. f-ly, 2 ill.

Description

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The invention relates to methods and devices for cleaning filter elements from contamination using ultrasonic vibrations and can be used in the power, chemical, oil refining, aviation, and other industries where filters are used.

The aim of the invention is to intensify the ultrasonic cleaning of filter elements.

FIG. 1 shows a diagram of the device; in fig. 2 — node I in FIG. one.

The device contains an acoustic van 1 with ultrasonic transducers 2 embedded in the bottom of the bath. Inside the bath is a cleaned porous-capillary filter element 3, which can be driven by the motor 4. The bath also contains a circulation and cleaning system for the washing liquid, including a pump 5, a filter 6 for regenerating the washing liquid, a valve 7, a cooler 8, and a diffusion nozzles 9 connected by pipeline 10. The end of the latter is placed in front of or inside the filter element to be cleaned and provided with dispersant 1}. The latter can be special nozzle-droplets, turbulent vortex mixers, pulsed boosters and other known constructive solutions.

Example. The filter element 3 to be cleaned is placed inside the bath I, filled with washing liquid, and brought into rotation by the motor 4. Then the voltage is applied to the ultrasonic transducer 2 To create the ultrasonic floor and the cleaning begins. At the same time, part of the washing liquid is pumped through the filter 6 to the cooler 8 by the pump 5. The flow of the washing liquid through the cooler is controlled by the valve 7.

The cooling of the washing liquid is carried out to (-20) ° C. Before washing liquid can be cooled using water from a water supply network. With the installation of refrigeration devices, the washing liquid can be cooled to ttc20 ° C. With decreasing t effect

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purification increases and is especially noticeable at low temperatures of the liquid when it solidifies, for example, at t (-1 0) - (- 20) ° С. The cooled liquid is then supplied through a diffuser nozzle 9 through conduit 10 to dispersers 11, through which it is dispersed into the remaining washing liquid. Then, the resulting emulsion passes through the capillaries of the filter element being cleaned.

Claims (5)

1. A method for cleaning a porous-capillary filter element, including placing the filter element in an ultrasonic field and creating a directional flow of washing liquid through its capillaries, characterized in that, in order to intensify the process, part of the washing liquid is cooled and then dispersed in the remaining washing liquid . 2. The method according to claim 1, distinguishing between tout and the fact that the washing liquid is cooled to its solidification temperature. 3. Method according to claim 1, differing from that, and using the aromatic ester of phosphoric acid as the washing liquid. 4. A method according to claim 1, characterized in that technical tri-3 5-xylenyl phosphate is used as the washing liquid. 5. A device for cleaning a porous-capillary filter element containing an acoustic bath with ultrasonic transducers embedded in the bottom of the bath, a filter element housed in it, and a circulation and regeneration system for washing liquid, including a pump connected by pipeline, a filter for regenerating washing liquid and diffusion nozzles, characterized in that, for the purpose of cleaning intensity, it is equipped with a coolant included into the system in front of the filter, with the end of the pipeline placed in front of or inside the filter element and provided with dispersants.