RU2297394C1 - Equipment for purification of the waste waters from the automobile washing - Google Patents

Abstract

FIELD: environmental protection; motor-car industry; other industries; equipment for purification of the waste waters containing suspended particles and oil products.

SUBSTANCE: the invention is pertaining to the equipment for purification of the waste waters containing the suspended particles and oil products for purification of the waste waters after automobiles washing and also for purification of the storm flows. The equipment contains the tank with the washing solution, the washing gantry, the chute for collection of the waste water containing the distributed along its length mud-catchers made in the form of the weirs, the sedimentary part of which is connected by the pipeline with the container-collector, and the overflow part is connected with the in series linked tanks, the first of which contains the thin layer settler and the coalescing screen; the second tank - the coalescing screen, the third tank - the sorption filters and the fourth tank - for overflow of the purified water, which outlet is connected to the pump, which through the ejector, the electrically controlled valves and the distributing pipelines is connected with the tank of the washing solution and with the tank, in which the thin layer settler is located. At that in each tank there are the mounted devices collecting the floatable the oil products, which are connected with the tank-collector, and the bottom of the tank with the thin layer settler is made in the form of the truncated pyramid for the sediment collection, which is removed by the pump. The technical result of the invention is the improved quality of the waste waters purification, the increased efficiency of the equipment operation due to the additional saturation of the waste waters with oxygen and the more complete usage of the absorbing capacity of the sorption filters.

EFFECT: the invention ensures the improved quality of the waste waters purification, the increased efficiency of the equipment operation, the additional saturation of the waste waters with oxygen, the more complete usage of the absorbing capacity of the sorption filters.

2 cl, 2 dwg

Description

The invention relates to devices designed for wastewater treatment containing suspended solids and oil products, and can be used for water treatment after washing cars, as well as for treatment of storm water.

A known installation for wastewater treatment, comprising a receiving tank with a removable chamber for collecting coarse impurities, with oil reflectors made in the form of alternating semi-submerged and attached partitions, a settling chamber and a filtrate collecting chamber with a filter at the inlet, an overflow pipe with a filter connecting the receiving and settling chambers, a pump whose suction pipe is located at the bottom of the settling chamber, and the discharge pipe is equipped with an ejector, a pump for drainage of clean water (A.S. USSR No. 1640122, class C 02 F 1/40, 1991).

The disadvantages of the known installation are the low cleaning effect, the bulkiness of the structures, the complexity of the design.

Closest to the proposed solution on the technical nature and the achieved result, adopted as a prototype is a wastewater treatment plant containing a washing rack, an inclined tray for collecting liquid, a dirt trap, a device for removing pop-up and settling substances, consisting of a flotation chamber, a flotation chamber in a thin layer, clarified liquid chambers, filter block with filter loading, water intake chamber, oil collection tank, sludge dewatering unit (AS USSR No. 850597, class C 02 F 1/40, 1 981).

The disadvantages of the prototype are the insufficiently high quality of wastewater treatment, the bulkiness of structures, and the complexity of the design.

The objective of the invention is to improve the quality of wastewater treatment and the efficiency of the installation due to the additional saturation of wastewater with oxygen.

The desired technical result is achieved due to the fact that the installation for wastewater treatment from car washing contains a washing solution tank, a washing rack, a wastewater collection tray, a dirt trap, a device for removing pop-up and settling substances, a clarified liquid chamber, a filter unit with a filter load , a reservoir for collecting oils, according to the invention, the tray for collecting wastewater contains mud traps distributed along its length, made in the form of weirs, the sedimentary part of which is connected by a pipeline with a storage container, and the overflow part with tanks connected in series, the first of which contains a thin-layer sump and a coalescing filter, the second contains a coalescing filter, the third contains sorption filters and the fourth contains a container for collecting purified water, the outlet of which is connected to a pump an ejector, electrically operated valves and distribution pipelines are connected to the tank of the washing solution and the tank in which the thin-layer sedimentation tank is placed, while in each tank there are devices for collecting melt substances and oil products that are connected to the storage tank, and the bottom of the tank with a thin-layer sedimentation tank is made in the form of a truncated pyramid to collect sediment, which is removed, for example, by a pump.

Sorption filters have two inlets and outlets on the housing, located at the top and bottom, respectively, which can significantly increase the duration of the filter cycle by making better use of the dirt capacity (absorption capacity) of their loading with appropriate connections: direct the water flow or from top to bottom on the first filter and from below up on the second, or vice versa: from bottom to top on the first and top to bottom on the second.

Sorption filters designed to remove surfactants have two inlets and outlets on the housing, located at the top and bottom, respectively, which can significantly increase the duration of the filter cycle due to more complete use of the dirt capacity of their load with appropriate connections: direct water flow or from top to bottom on the first filter and bottom-up on the second, or vice versa: bottom-up on the first and top-down on the second.

All of these signs are interrelated due to their combined effect on the hydraulic and water-air modes of the installation and ensure the achievement of a technical result.

The drawings show a General view (figure 1) and a longitudinal section (figure 2) of the installation for wastewater treatment.

An installation for treating wastewater from a car wash contains a washing solution tank 1, an overpass 2 for washing cars with a discharge tray 3 and with mud traps 4 sequentially installed along its length with a storage container 5, a container 6, into which wastewater is supplied from the tray 3, with a thin-layer sump 7, a coalescing filter 8, the output of which is connected to a container 9, in which a filter 10 is placed, the output of which is connected to the input of one of two sorption filters 11 and 12 connected in series, the output of which is connected to the chamber with pure water boron 13. The outlet of the latter is connected to a pump 14, on the discharge pipe of which an ejector 15 is installed, the outlet of which is connected through electrically operated valves 16 and 17 to distribution systems 18 and 19, one of which is installed at the entrance to a thin-layer sedimentation tank 7, and the second is connected with a tank for preparing a washing solution 1. In tanks 6, 9, devices for collecting floating substances and oil products 20 are installed, which are connected to the storage tank 21, and the bottom of the tank 6 is made in the form of a truncated pyramid for collecting sediment, which is removed, for example, a portable pump (not shown).

Sorption filters 11 and 12 have two inlets and outlets on the housing, located at the top and bottom, respectively, which can significantly increase the duration of the filter cycle due to a more complete use of the dirt capacity (absorption capacity) of their loading with appropriate connections: direct the water flow or from top to bottom at the first filter and from bottom to top in the second, or vice versa: from bottom to top in the first and from top to bottom in the second.

Installation works as follows.

In the tank 1, a washing solution is prepared by adding detergents to the water. The washing solution after washing the car on the overpass 2 is collected in the tray 3 in the form of wastewater, which sequentially passes the mud traps installed inside the tray 4. The detained solid particles are removed into the storage container 5, which is removed as it is filled.

Partially clarified wastewater flows spontaneously into a container 6 and enters through a thin-layer sump 7 into a coalescing filter 8.

In a thin-layer sedimentation tank 7, suspended solids with a hydraulic particle size of up to 0.2 mm / s are removed, which are collected in a pit, from where they are removed, for example, by a pump. In the sump 7, oil products are also released that float to the upper part of the tank 6 and are removed by the collection devices 20 to the storage tank 21. The distribution system 18 supplies the air-water mixture to the thin-layer sump 7, and 19 to the tank of the washing solution 1.

At the foam polypropylene loading of the filter 8, the water is purified from petroleum products and refined from suspended solids. As the filter 8 becomes dirty, the load is regenerated and the accumulated oil products are removed to the storage tank 21.

Water from the outlet of the filter 8 enters the tank 9, where the filter is located 10. The water passes through the polypropylene loading from the bottom up and is almost completely cleaned of oil products and suspended solids.

Water after filter 9 enters the inlet of sorption filters 11 and 12 with a carbon-containing charge, where it is mainly purified from surfactants. The filter housings 11 and 12 contain two inputs and two output nozzles, which makes it possible to more fully use the load capacity of the load due to their switching and, therefore, increase the duration of the filter cycle.

After sorption filters, water enters the clean water collecting tank 13, from where it is pumped through the ejector 15 and the electrically controlled valve 17 to the tank 1. By saturating the purified water with air, odors and residual contaminants are removed.

If the quality of wastewater treatment is insufficient, the water from the tank 13 by the pump 14 through the ejector 15 and the valve 16 is returned to the tank 6 for re-cleaning. By saturating water with air, re-cleaning results are more effective.

The claimed proposal allows to significantly improve the quality of wastewater treatment while increasing the operating time of the filters.

Claims (2)

1. Installation for treating wastewater from a car wash, comprising a washing rack, a wastewater collection tray, a dirt trap, a thin-layer sump, clarified liquid chambers, a filter unit with a filter load, an oil collecting tank, an ejector, characterized in that the collection tray waste water contains mud traps distributed along its length, made in the form of weirs, the sedimentary part of which is connected by a pipeline to a storage container, and the overflow part is connected to tanks in series, the first of which the second one contains a coalescing filter, the third contains a sorption filter and the fourth contains a container for collecting purified water, the outlet of which is connected to a pump, which is connected to a washing solution tank and a container through an ejector, electrically operated valves and distribution pipelines, which contains a thin-layer sump, while in each tank there are devices for collecting floating substances and oil products that are connected to the storage tank, and the bottom of the tank with a thin-layer sludge oynik made in the form of a truncated pyramid to collect sediment, which is removed, for example, by a pump. 2. Installation according to claim 1, characterized in that the sorption filters have two inlets and outlets on the housing, located at the top and bottom, respectively, which can significantly increase the duration of the filter cycle due to more complete use of the absorption capacity of their loading with the corresponding compounds: water flow direct either from top to bottom on the first filter and from bottom to top on the second, or vice versa: from bottom to top on the first and top to bottom on the second.

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