RU145342U1 - WASTE WATER TREATMENT PLANT - Google Patents

Abstract

Installation for reducing the concentration of mineral and suspended solids, petroleum products in rain and melt water, including a storm water tank with a cast-iron grate placed above a tank through which rain and melt water enters, a drain pipe through which water enters a storm sewer, characterized in that an inverted receiving truncated pyramid is installed under the cast-iron grate, the upper base of which corresponds to the parameters of the cast-iron grate and is installed under it, the smaller base of the pyramid is placed inside the upper end of the guide tube with supporting external grilles is attached to it and the lower end of the pipe is made in the form of a gear spillway resting on the bottom of the sand trap container, made in the form of a pipe with a bottom, and a guide tube is coaxially mounted in the sand trap tank, and the tube between the supporting external gratings are filled with granules of an inert aggregate; in the upper part of the sand trap tank there are holes through which water enters the oil trap tank made in the form Pipes larger than trashbox tube, with internal supporting bars, which has elements of the sorption filter and the bottom of the oil catchers has openings for draining purified water, and in the receiving vessel before frustum guide pipe is installed further thin layer lattice.

Description

1. Area of technology

In installations for the treatment of storm sewage coming from the sites and territories of gas stations, car parks, car enterprises, oil product storages, service stations, garages and other enterprises.

2. The level of technology

Known devices (combined sand and oil traps) developed by LLC ECOVOD Chelyabinsk and LLC ECOLINE Togliatti, which consist of a casing, which is a horizontal container made of fiberglass, and containing a strainer, technical well, ventilation pipe , risers for pumping sludge and oil products, thin-layer modules, sorption unit, oil level sensor, signaling device, sewer manholes, removable stairs, squeezing device for sorbent. Sedimentation occurs sequentially by reducing the flow rate of water in the receiving compartment of the unit, thin-layer and coalescing filters, and oil products on absorbing and sorption filters (Passport for oil traps of the EKO-N type, 2011 and technical data sheet for the combined sand and oil trap ECOVOD LLC. 2010)

The disadvantage of these devices is the structural complexity due to the large size and quantity of equipment.

It is known that we adopted as a prototype a device that contains sequentially connected compartments, a sewage supply pipe connected to the inlet compartment, a clean water drain pipe connected to a chamber for accumulating purified water, an intermediate pipeline, metal partitions and valves installed on the corresponding pipelines and also contains a water reflection shield located opposite the sewage supply pipeline, a thin-layer sump and a tank for collecting oil products located in the inlet the compartment, as well as the filters of the first, second and third stages located in the outlet compartment, the filters of the first and second stages are arranged sequentially in the direction of flow of the purified water, and the filter of the third stage is located above the filter of the second stage, while the input and output compartments are connected by an intermediate pipeline semi-immersed in the purified water in the first compartment, and the oil recovery tank formed by the partitions is connected to the surface layer of the purified water by means of the corresponding pipelines s fitted with the valves (RU №78791, IPC: C02F 3/12 07.07.2008)..

The disadvantage of this installation is the structural complexity due to the large amount of equipment.

3. Disclosure of utility model

The objective of the utility model is to reduce the concentration of suspended solids and oil products in rain and melt water.

The solution to this problem is provided by the fact that the installation includes a storm water inlet tank with a cast-iron grate located above the tank through which rain and melt water flows, a drain pipe through which water flows into the storm sewer, an inverted truncated receiving pyramid is installed under the cast-iron grate, the upper base of which corresponds to the parameters of the cast-iron grate and installed below it, the smaller base of the pyramid is placed below and the upper end of the guide pipe is attached to it with a supporting external gratings, the lower end of the pipe is made in the form of a gear spillway, resting on the bottom of the sand trap tank, made in the form of a pipe with a bottom, and a guide tube is coaxially mounted in the sand trap tank, and the annular tank between the supporting external gratings is filled with inert filler granules in the upper part sand trap tanks have openings through which water enters the oil trap tank, made in the form of a pipe of a larger size than the sand trap pipe, with supporting The early gratings on which the elements of the sorption filter are placed, and in the lower part of the oil trap there are openings for draining the purified water, and an additional thin-layer grate is installed in the tank of the receiving truncated pyramid in front of the guide tube.

4. Brief description of the drawing

The essence of the utility model is illustrated by drawings (for a rectangular storm water inlet):

- figure 1 presents a frontal view of the design of the installation (in section);

- figure 2 presents a view of the installation from above;

- Fig 3 is a view of the structure from the side (in section)

To collect storm water from a selected site, storm water inlets according to TP 902-09-46.88 are installed on the latter, consisting of a cast-iron grate 1, a storm water inlet tank 2, a receiving truncated pyramid 3 (or a truncated funnel for a circular storm water inlet), a thin-layer grate 4, a guide pipe 5 with external gratings, a sand trap 6 filled with granules of inert material 7, for example, expanded polystyrene granules, oil trap 8 with supporting grids filled with elements of a sorption filter 9 (for example, Irvelent-M), a discharge pipe 10 with an oil trap tank and a storm water inlet pipe 11 connected to a storm sewer collector (not shown in the figure).

5. Implementation of a utility model

The operation of the claimed device is as follows.

Water from the site adjacent to this storm water inlet enters through a cast-iron grate 1 into a receiving truncated pyramid 3, which is installed with its large base under the grate in the container of the rectangular inlet 2. The cast-iron grate 1 prevents the unit from floating up. From the pyramid 3, water passes through a thin-layer lattice 4 located in it and enters through a guide pipe 5, connected at one end to the lower bottom of the truncated pyramid 3, into the tank of the sand trap 6. The second end of the pipe 5 is made in the form of a gear spill, resting on the bottom of the sand trap 6, made of a pipe of larger diameter, into which the pipe 5 is inserted coaxially. The pipe 5 is made with supporting external gratings located on its outer side and between which are placed the plastic granules of the inert aggregate 7. The water entering through the pipe 5 changes the direction of movement in the opposite direction and is directed upward through the annular space, which is filled with granules of the aggregate 7. The flow velocity at this is reduced, which leads to the deposition of suspended particles in the lower part of the tank 6. When climbing through the annular space through the granules of the aggregate 7, the water velocity decreases which leads to additional precipitation of suspended solids in the tank 6 and on the granules of the aggregate 7. Partially purified water through the holes in the upper part of the tank 6 enters the tank of the oil trap 8, where it passes through the layers of elements of the sorption filter 9 and is cleaned of oil products and suspended particles, and then leaves through the discharge pipe 10 into the container of the storm water inlet 2. Water from the capacity of the storm water inlet 2 through the existing pipe 11 enters the storm sewer. On this, the surface water purification in the considered storm water inlet ends.

If several storm water inlets are installed on the site, the cleaning process occurs similarly in others.

The overall dimensions of the installation are selected from the design features of the storm water inlets and the adjacent area served by this storm water inlet.

Installations are made of high-strength PVC plastic.

6. Technical Results

The cleaning performance indicators of the installation are evaluated by the following data:

- utilization of suspended solids -98%,

- petroleum products -98-99%;

- COD - 25-30%.

Claims (1)

Installation for reducing the concentration of mineral and suspended solids, petroleum products in rain and melt water, including a storm water tank with a cast-iron grate placed above a tank through which rain and melt water enters, a drain pipe through which water enters a storm sewer, characterized in that an inverted receiving truncated pyramid is installed under the cast-iron grate, the upper base of which corresponds to the parameters of the cast-iron grate and is installed under it, the smaller base of the pyramid is placed inside the upper end of the guide tube with supporting external grilles is attached to it and the lower end of the pipe is made in the form of a gear spillway resting on the bottom of the sand trap container, made in the form of a pipe with a bottom, and a guide tube is coaxially mounted in the sand trap tank, and the tube between the supporting external gratings are filled with granules of an inert aggregate; in the upper part of the sand trap tank there are holes through which water enters the oil trap tank made in the form Pipes larger than trashbox tube, with internal supporting bars, which has elements of the sorption filter and the bottom of the oil catchers has openings for draining purified water, and in the receiving vessel before frustum guide pipe is installed further thin layer lattice.