RU86585U1 - DEVICE FOR CLEANING LIQUID OR GAS FROM IMPURITIES - Google Patents

Abstract

1. A device for cleaning a liquid or gas from impurities, comprising a waveguide casing with a supply of cleaned and contaminated fractions of a liquid or gas, receivers of a purified liquid or gas and contaminants, vibration sources, characterized in that it contains at least one controlled source of mechanical vibrations, sensors for monitoring the formation of a standing wave, while the side walls of the waveguide body are made with the possibility of excluding reflection of vibrations into the space of the waveguide body, at least m re, one inlet device for supplying cleaned liquid or gas is placed on the device body in the area of the pressure unit of the generated standing wave, at least one outlet device for removing purified liquid or gas is located in the antinode of the maximum pressure (Pmax) of the standing wave, at least one exhaust device for removing contaminants is located in the antinode zone of the minimum pressure (Pmin) of the standing wave. ! 2. A device for cleaning a liquid or gas from impurities according to claim 1, characterized in that it contains two or more controlled sources of coherent mechanical vibrations made with the possibility of eliminating the reflection of mechanical vibrations from each other. ! 3. A device for cleaning a liquid or gas from impurities according to claim 1, characterized in that the waveguide body of the device for cleaning a liquid or gas from impurities is made in an annular shape. ! 4. A device for cleaning a liquid or gas from impurities according to claim 1, characterized in that it is made by attaching to it at least one more similar device for cleaning a liquid or gas from

Description

The utility model relates to devices for cleaning liquids or gases from impurities and can be used in various fields of activity.

A known apparatus for clarification of suspensions, including a rectangular housing, an element for supplying a suspension, receivers of clarified liquid phase, an ultrasound source - a vibrator mounted on the side wall of the housing, at a distance ½ wavelength of ultrasound from the opposite wall, receivers of condensed products made in the form of slit shutoffs installed in the lower part of the body under the zones of pressure antinodes of the ultrasonic standing wave (RU 1426950 C02F 1/34, 1988).

The disadvantage of this device is the low efficiency of water clarification due to the lack of accurate installation and regulation during operation of the required distance between the emitter and the screen.

Also known is an ultrasonic filter for water purification, containing an ultrasound source, with a rectangular filter housing located at the end, condensed product and liquid phase receivers made in the form of slotted cut-offs in the lower part of the housing under the zones of pressure antinodes and ultrasonic standing wave velocities, characterized in that it is equipped with an adjustable metal screen located on the opposite wall of the housing from the ultrasound source with the possibility of establishing between the planes of the emitter and the screen distance a multiple of half the wavelength of ultrasound, and the plate cutters are additionally equipped with regulators for changing the width of the slots of the cutters (RU 2037327 C1, B01D 51/08, 1995.06.19) - prototype.

The disadvantage of this device is the strictly fixed dimensions of the device, depending on the length of the generated standing wave.

The objective of the claimed utility model is to create a universal device, the efficiency of which will not be strictly dependent on its overall parameters and, in particular, on the length of the device’s body, as well as expanding the technological capabilities of the device, namely, carrying out effective cleaning of various physicochemical properties liquids or gases.

The problem is solved in that in a device for purifying a liquid or gas from impurities, comprising a device body, with a supply of a liquid or gas to be purified, receivers of purified liquid and contaminants, according to the claimed utility model, the device contains at least one controllable mechanical source oscillations, sensors for monitoring the formation of a standing wave, while the side walls of the waveguide body are configured to exclude reflection of vibrations into the space of the waveguide body, at least about the bottom of the inlet device for supplying the cleaned liquid or gas is placed on the device body in the area of the pressure unit of the generated standing wave, at least one outlet device for removing the cleaned liquid or gas is located in the antinode of the maximum pressure (P _max ) of the standing wave, at least one outlet device removal of contaminants is located in the antinode zone of the minimum pressure (P _min ) of the standing wave.

The device may contain two or more controlled sources of coherent mechanical vibrations, configured to exclude the reflection of mechanical vibrations from each other.

The body-waveguide of the device for cleaning liquid or gas from impurities can be made ring-shaped.

A device for cleaning a liquid or gas from impurities can be made by attaching at least one more similar device for cleaning a liquid or gas from impurities, while the outlet device for removing the purified liquid or gas of the first device is connected to the inlet device for supplying the liquid to be cleaned next device.

The device’s operation is based on the property of mechanical standing waves in waveguides, namely, a fixed distribution of the pressure amplitude along the waveguide in accordance with the antinodes and nodes of the standing wave.

The device is illustrated in the drawing, which schematically shows the projection of the oscillations of the standing wave on the device.

A device for cleaning a liquid or gas from impurities contains a waveguide body 1, sources of coherent mechanical vibrations 2, sensors for monitoring the formation of a standing wave 3, an intake device for supplying a cleaned liquid or gas 4, an exhaust device for removing purified liquid or gas 5, one exhaust device for removing polluting impurities 6.

A device for cleaning a liquid or gas from impurities works as follows (for example, contaminated liquid).

The contaminated liquid enters through the inlet of the fluid to be cleaned 4 into the waveguide body 1, where it is exposed to pressure drops of a mechanical standing wave, the sensors for monitoring the formation of a standing wave control the occurrence of a standing wave with one or more than one controlled source of mechanical vibrations. When a standing wave occurs, the impurities are displaced from the high pressure zone to the low pressure zone, that is, the separation of the original (contaminated) liquid into a “clean” and “dirty” fraction. Through the outlet device for discharging the purified liquid 5 located in the antinode zone of maximum pressure, the purified liquid is supplied to the receiver of the purified liquid, and through the outlet device for discharging contaminants 6 located in the antinode of the minimum pressure, the liquid with contaminants in the receiver of contaminants.

A device for cleaning a liquid or gas from impurities with more than one inlet device for supplying a liquid or gas to be cleaned, more than one outlet device for removing the purified liquid or gas and more than one outlet device for removing contaminants placed along the length of the device in accordance with the nodes and antinodes of a standing wave along the length of the waveguide can improve the performance of cleaning liquid or gas. In addition, the intensity and degree of purification can be increased by increasing the amplitude and (or) changing the shape of the oscillations of the regulated sources of coherent oscillations.

When several devices for purifying a liquid or gas from impurities are connected in series with the supply of a purified fraction of liquid or gas from the first device to the inlet device for supplying the liquid or gas to be cleaned from the second device, and from the second to the third and further, with the possible use in each of the subsequent connected devices coherent mechanical vibrations for the formation of standing waves of various amplitudes, shapes and frequencies, allows for deeper cleaning of contaminated liquid or gaseous media, with the allocation of "clean" and "dirty" fractions.

The claimed device for cleaning liquid and gas from impurities in comparison with known devices has the following advantages:

- allows you to fine-tune the nodes and antinodes of the standing wave along the length of the waveguide, as well as change the oscillation parameters during the cleaning process for its optimization through the use of controlled sources of coherent mechanical vibrations in combination with sensors for monitoring the formation of a standing wave in the body of the waveguide;

- intensify the cleaning process by changing the parameters (including increasing the amplitude of oscillations) of controlled coherent sources;

- to increase the degree of purification by cascading (sequential) connection of purification devices, as well as through the use of various oscillation parameters of controlled coherent sources generating standing waves in various stages of the purification device;

Claims (4)

1. A device for cleaning a liquid or gas from impurities, comprising a waveguide casing with a supply of cleaned and contaminated fractions of a liquid or gas, receivers of a purified liquid or gas and contaminants, vibration sources, characterized in that it contains at least one controlled source of mechanical vibrations, sensors for monitoring the formation of a standing wave, while the side walls of the waveguide body are made with the possibility of excluding reflection of vibrations into the space of the waveguide body, at least m D, one inlet means for supplying cleaning fluid or gas is placed on the housing unit into a pressure unit area generated by a standing wave, at least one outlet retraction of purified fluid or gas disposed in the antinode zone of maximum pressure _(Pmax) of the standing waves, at least , one exhaust device for removing contaminants is located in the antinode zone of the minimum pressure (P _min ) of the standing wave. 2. A device for cleaning a liquid or gas from impurities according to claim 1, characterized in that it contains two or more controlled sources of coherent mechanical vibrations made with the possibility of eliminating the reflection of mechanical vibrations from each other. 3. A device for cleaning a liquid or gas from impurities according to claim 1, characterized in that the waveguide body of the device for cleaning a liquid or gas from impurities is made in an annular shape. 4. A device for cleaning a liquid or gas from impurities according to claim 1, characterized in that it is made by attaching to it at least one more similar device for cleaning a liquid or gas from impurities, while the outlet device for removing the purified liquid or gas the first device is connected to the inlet device for supplying the cleaned liquid of the attached device.