RU2080301C1 - Apparatus for cleaning waste water - Google Patents

Abstract

FIELD: waste water purification. SUBSTANCE: apparatus has cylindrical-conical settling chamber with annular tray in its upper part, filters with grainy charge located outside the chamber, water supply pipeline, drain pipeline, and branch pipe for removing sediment. Drain pipeline is made in the form of siphon with its ascending branch disposed in settling chamber and provided with telescopic fitting having jet-cut opening. Filter charge is composed of latex wastes. Charge height is 0.5-0.75 of that of filter module. Density of charge is 0.07-0.08 g/cu.cm and its waste water load capacity 35-50 l/sq.cm h. EFFECT: improved design. 2 cl, 1 dwg

Description

 The invention relates to the purification of industrial oil-, oil-containing wastewater and can be used in areas of external washing of motor transport and car repair enterprises.

A device for cleaning industrial oil-, oil-containing wastewater, including a horizontal sump equipped with an oil pan and a hydraulic elevator, a cassette filter, a pressure hydrocyclone, a hopper for jigging and a filter for the purification of drainage water [1]
The disadvantages of the known device are the bulkiness of the structures, the complexity of the removal and processing of emitted contaminants. Hence the high cost of capital and operating costs, in connection with which the known device is disadvantageous to use for the garage and enterprises with a small number of vehicles (up to 150 units). In addition, chips, sawdust and other materials are used as loading material, which makes it necessary to constantly replace the filter material after its contamination, since regeneration of the loading material is impossible.

The closest in technical essence to the proposed device is a plant for the treatment of oily wastewater, including a cylindrical settling and ring filter chamber [2]
The disadvantages of the known device are the low efficiency of purification of oil-, oil-containing wastewater, since gravitational clarification of wastewater occurs in the known device. Repeated use of purified water in washing plants leads to peptization of contaminants, as a result of which a layer of finely dispersed contaminants is formed, which do not succeed in forming in the floating layer during gravitational settling. Therefore, during the operation of the installation, a change in the height of the layer “H” of oil and oil products pops up. As the wastewater is supplied to the unit, clarified water is sucked off via a siphon pipeline.

 Moreover, the higher the concentration of petroleum products in wastewater and the duration of use of purified water in circulation, the larger the “H” layer. Therefore, some of the petroleum products fall into clarified water, which sharply reduces the effect of wastewater treatment in general. In addition, the rigidity of the design of the siphon pipeline does not provide the ability to control the critical level of the location of the suction end of the siphon pipeline depending on the initial concentration of oil and oil products in the source wastewater. In addition, clarified wastewater does not always correspond to the MPC for recycled water. To achieve the required degree of purification by suspended solids and the content of oil and oil products, subsequent filtration of clarified water through a layer of sawdust, wood chips, expanded clay, etc. is necessary. These types of downloads are practically not regenerated, and therefore operating costs increase significantly.

 The aim of the invention is to increase the efficiency of wastewater treatment for suspended solids and petroleum products.

 This goal is achieved by the fact that in the device for wastewater treatment, containing a cylindrical-conical settling chamber with an annular tray in the upper part, granular loading filters located on the outside of the chamber, a water supply pipe, a drain pipe and a sludge removal pipe, a drain the pipeline is made in the form of a siphon, the ascending branch of which is located in the settling chamber and is equipped with a telescopic nozzle with an opening for breaking the jet, and the filter loading is made of latex waste.

 The equipment of the ascending branch of the drain pipe with a telescopic nozzle with a hole for breaking the jet provides the ability to control the required level of hole location depending on the value of "H". This allows, depending on the initial concentration of contaminants in the wastewater and the duration of the use of purified water in circulation, to provide a constant output concentration of clarified water, some of which is recycled to the waste water receiving tank.

 The use of latex synthetic material as waste loading provides a significant increase in the efficiency of the filter modules (filters). The average duration of the filter cycle is 60–80 h, while the loading height does not exceed 1.1 m. The use of a centrifuging device helps to achieve the regeneration of the loading material up to 85%. The load can be used 5–8 times, after which it is sent for burning to boiler plants.

 The drawing shows the proposed device.

 A wastewater treatment device comprises a cylinder-conical suction chamber 1, on the outside of which there are filters (filter modules) 2 with a load. The chamber is equipped with a prefabricated annular chute 3 at the top, with drain holes in its inside. 4. A drain pipe 5 is installed in the cavity of the settling chamber 1. pipe 6 with a hole 7 for breaking the jet, which prevents the ingress of a pop-up layer of oil products, in the event of a decrease in the water level in the sump 1 in clarified water. Filtered water is collected in a collection pipe 8 and is sent for reuse through a discharge pipe 9.

 The clarified wastewater through line 10 is recycled to a wastewater receiving chamber (not shown). The sediment from the settling chamber 1 is removed through a pipe 11 to the sand pads (not shown). Source wastewater is supplied to the installation through pipeline 12.

 A device for wastewater treatment is as follows.

 Wastewater from a receiving tank (not shown) is pumped to a cylinder-conical settling chamber 1 through a pipe 12. As a result of gravitational processes, separation into fractions (floating, liquid and solid-sediment) occurs. Moreover, depending on the initial concentration of contaminants and the duration of use of treated wastewater in circulation, the height of the layers of the above fractions is constantly changing. In particular, the height H of the floating fraction of petroleum products can vary in the range of 10-30 cm. To prevent the floating fraction from entering the clarified waste water, the end of the ascending branch of the drain pipe 5 is equipped with a telescopic pipe 6 with an opening 7 for breaking the jet. The implementation of the drain pipe 5 in the form of a siphon provides a more efficient operation of the clarified wastewater removal system, regardless of the state of the dispersed phase of oil products. The clarified water through the pipeline 10 is sent to a receiving tank to average the concentration of the source wastewater. Repeated use of wastewater in recycled water supply inevitably leads to peptization of contaminants, which contributes to an increase in the thickness H of the floating fraction. Therefore, due to the telescopic pipe 6, it is possible to set the required level of intake of clarified water from the settling chamber 1 without stopping its operation.

The precipitate is accumulated in the conical part of the chamber 1 and is periodically removed through the pipe 11 to the sand pads or sand bunker (not shown in the diagram). For the smooth sliding of sediment, the angle of inclination of the conical bottom of the chamber 1 is recommended to be taken within 55 -70 ^o .

 The floating fraction through the drain holes 4 is sent to a prefabricated annular tray 3, which is evenly distributed in the filters 2. As a filter load, synthetic waste material is used - latex.

 The purified water is sent to the collection pipe 8 and is discharged from the installation through the pipe 9 to the purified water tank (not shown in the diagram) for subsequent use in the recycled water supply for washing vehicles.

Thus, from the foregoing, we can note the following advantages of the proposed device in comparison with the prototype:
1. The above-ground location of the device and the proposed organization of the flow distribution provides access to all elements of the installation, gravity flow of water and sediment, and therefore simplicity and reliability in operation.

 2. The use of metal structures, unlike reinforced concrete, allows for the mobility of the installation in order to create seasonal car wash posts at enterprises with any number of units.

 3. The decision of the filter design in the form of separate modules allows you to disable one or more modules for regeneration without stopping the operation of the entire device. In this case, it is possible to connect the filters in series with alternately switching off the first stage for regeneration.

 4. The use of elastic latex synthetic material as a filter load allows its regeneration by pressing in a centrifugal field. At the same time, the percentage of regeneration is about 85%, and the separated liquid fraction can be classified as a "mixture of spent petroleum products".

 5. The device provides a cleaning effect on suspended solids up to 99% and on petroleum products up to 90%. Moreover, the residual concentrations of pollution do not exceed 10 kg / l for both controlled parameters, which is two or more times less than the accepted MPC standards for using purified wastewater in reverse water supply for car washing.

 6. Installation is easy to manufacture, install and operate.

Claims (2)

 1. A device for wastewater treatment, containing a settling chamber with an annular tray in the upper part, a water supply pipe, a drain pipe made in the form of a siphon, an ascending branch of which is located in the settling chamber, and a pipe for removing sludge, characterized in that it equipped with latex-loaded filters located on the outside of the chamber, made cylindrical, and communicated with the tray, while the ascending siphon branch is equipped with a telescopic nozzle with an opening for breaking the jet. 2. The device according to p. 1, characterized in that the height of the loading layer is 0.5 0.75 of the filter height, with a loading density of 0.07 0.08 g / cm ³ and a load of waste water 35 50 l / h • cm ² .