RU2751484C1 - Waste water collection, treatment and transportation system - Google Patents

Abstract

FIELD: water treatment.

SUBSTANCE: invention relates to the field of water treatment, namely to sewer pipeline hydraulic systems for collecting, cleaning and transporting industrial rainwater and household wastewater. The system contains a gas separation housing, a triethylene glycol regeneration housing, a water treatment complex and a domestic wastewater treatment plant connected to each other by means of pipelines for transporting wastewater. In the mentioned premises, four chemical reagent dosing units are installed, consisting of flow tanks (5) equipped with corrosion inhibitor input nodes (6) into protected pipelines for the transportation of household wastewater. Each of the input nodes (6) includes a manual control valve (7), a drain valve (8) connected by a chemical reagent input pipeline (9), and a detachable flange (10) with a supply tube (11) equipped with a spray nozzle (12). The first dosing unit is installed in the gas separation housing. The second dosing unit is installed in the triethylene glycol regeneration housing. The third dosing unit is installed in the water treatment complex. The fourth dosing unit is installed on the territory of the domestic wastewater treatment plant.

EFFECT: invention makes it possible to reduce the rate of corrosion processes occurring in the equipment of the wastewater collection, treatment and injection system into the absorbing reservoir.

7 cl, 2 tbl, 2 dwg

Description

The invention relates to systems for water treatment, namely to sewerage pipeline hydraulic systems for collecting, cleaning and transporting industrial rainwater and household wastewater with high corrosive activity, and can be used at treatment facilities of industrial enterprises, in particular at oil and gas condensate fields.

From the prior art, a pipeline is known that is applicable as part of a sewer system [RU 136827, IPC E03F 3/06, published 01/20/2014]. The technical solution provides an increase in the durability and resistance of the pipeline repair coating to aggressive media due to its manufacture in the form of plates in the form of segments of a hollow cylinder made of polymer concrete.

The disadvantage of the known technical solution is its low manufacturability associated with the complexity of the manufacture of the pipeline. In addition, the pipeline has a high material consumption and weight, porosity of the inner surface of pipes and a tendency to aging of polymer concrete segments.

The closest to the claimed invention and adopted as a prototype is a water treatment system used for industrial purposes [RU 2606599 C2, IPC C02F 1/52, C02F 1/50, C02F 9/02, B01D 21/01, B01D 36/04 , published 10.01.2017]. The system includes a container and an automated system for regulating the liquid level in it, made with the ability to control the technological process of water treatment in the container. The automated system includes at least one pump for suction of water, one filter element, and one unit for supplying chemicals, made in the form of an injector, a spray gun, a dispenser, a pipeline, or a combination thereof.

The disadvantage of the known system for water treatment is the complexity of its adaptation for use when collecting and pumping into the absorbing layer of wastewater generated during the operation of the gas field.

The technical problem to be solved by the claimed invention is the development of a pipeline system for cleaning and pumping wastewater into an absorbing stratum, which makes it possible to reduce the rate of corrosion processes in the units and assemblies of the said collection system.

This problem is solved by the fact that the system includes a gas separation casing, a triethylene glycol (TEG) regeneration casing, a water treatment complex and a domestic wastewater treatment plant, interconnected by pipelines for transporting domestic wastewater. The unit differs from the known analogs by the fact that four chemical dosing units (BDR) are installed in the aforementioned rooms, consisting of supply tanks equipped with nodes for introducing a corrosion inhibitor into protected pipelines for transporting wastewater. Each of the inlet assemblies includes a manual control valve, a drain valve connected by a chemical reagent inlet pipeline, and a split flange with a supply tube equipped with a spray nozzle. The first dosing unit is installed in the gas separation housing, the second dosing unit is installed in the triethylene glycol regeneration housing, the third dosing unit is installed in the water treatment complex, and the fourth dosing unit is installed on the territory of the domestic wastewater treatment plant.

A positive technical result provided by the set of features of the invention disclosed above is the ability to reduce the rate of corrosion processes occurring in the equipment of the system for collecting, cleaning and pumping wastewater into the absorbing formation. The design of the system for collecting, treating and transporting industrial rainwater and domestic wastewater also allows you to abandon unscheduled repairs of equipment and pipelines of sewage treatment facilities, which excludes possible wastewater discharge into the environment during repair work when the system is depressurized.

The invention is illustrated by drawings, where Fig. 1 shows a diagram of the points of installation of blocks for dosing chemical reagents for introducing and dosing a corrosion inhibitor into pipelines for transporting wastewater from sewage treatment plants; in fig. 2 shows a block diagram of a chemical dosing unit.

The system for collecting, cleaning and transporting industrial rainwater and domestic wastewater is arranged as follows.

The system includes a gas separation body 1, a triethylene glycol (TEG) regeneration body 2, a water treatment complex 3, which can be used as the Impulse-10-2 / 20 model, and a domestic waste water treatment plant 4, which is part of the sewerage facilities, which can be used as the model "AE-150". The premises, which are the nodes of the system, are interconnected by means of pipelines for transporting waste water. The premises are equipped with four chemical dosing units (BDR), consisting of supply tanks 5, equipped with nodes 6 of the corrosion inhibitor in the protected pipelines for the transportation of domestic wastewater. Each of the input assemblies 6 includes a manual control valve 7, a drain valve 8 connected by a chemical reagent injection pipeline 9, and a split flange 10 with a supply pipe 11 equipped with a spray nozzle 12.

The pipelines of the chemical reagent injection units 9 are made of stainless steel, and their diameter is selected according to the results of hydraulic calculations and is 32 × 3.0 mm for the first BDR, 25 × 2.0 mm for the second, and 38 × 3.0 for the third. mm, for the fourth - 38 × 3.0 mm. To reduce heat losses, the pipelines are made with electric heating and thermal insulation. Below (table 1) are the main parameters and operational characteristics of chemical dosing units.

Sewerage facilities also include the following units:

• pumping station for pumping wastewater into the reservoir;

• a reservoir of industrial rainwater with a volume of V = 100 m ³ ;

• three reservoirs of domestic waste water with a volume of V = 25 m ³ each;

• additional installation for the treatment of domestic wastewater, model "Ersh-B80";

• container for the captured oil products, model "EP-4" with volume V = 12.5 m ³ ;

• capacity for sediment model "EP-5" with volume V = 12.5 m ³ ;

• plant for treatment of industrial and rainwater wastewater model "VOC-5";

• five reservoirs of treated waste water with a volume of V = 12.5 m ³ each;

• two sewage pumping stations for domestic waste water;

• four tanks for industrial and rainwater wastewater with a pump with a volume of V = 25 m ³ each;

• A plant for the treatment of industrial and rainwater wastewater of the Flottweg brand, at the entrance to which an additional fifth unit for dosing chemicals can be installed, which increases the efficiency of wastewater treatment.

The system for collecting, cleaning and transporting industrial rainwater and domestic wastewater is used as follows.

Initially, an inhibitor composition is prepared to reduce the rate of corrosion processes of equipment and pipelines of sewage treatment plants by dissolving the nitrite-benzoate composition in water, adding zinc ions Zn, for example, in the form of zinc chloride, catamine AB and urotropin. Zinc salt is a corrosion inhibitor, urotropine is an absorber of hydrogen sulfide and sulfide-containing compounds, and catamine AB serves as a biocidal additive. Below (table 2) is one of the possible formulations and inhibitor composition, where the content of the components is given in ratios in mg / l aqueous solution.

The resulting inhibitor composition is poured into the supply tanks 5 of chemical dosing units (BDR), after which the supply pipe 11 is introduced into the cavity of the protected pipeline, placing the nozzle 12 in its lower part, and sealing the tube 11. Dosed supply of the inhibitor composition into the wastewater flow, taking into account the frequency of preparation of the solution is carried out once every seven days, opening the control valve 7 and the drain valve 8, for a predetermined period of time, in accordance with the required volume of the injected inhibitor.

To automate the process of supplying the inhibitor, valves 7 and 8 can be made electromechanical, while their pulleys can be connected by mechanical transmissions to the shafts of electric motors. In this case, the power outputs of the microprocessor control unit equipped with a radio module can be connected to the control inputs of the electric motors. In this case, the valves can be controlled remotely by sending control commands by the automated pipeline control system to the valve control unit via a radio channel.

Thus, the system for collecting, cleaning and transporting industrial rainwater and domestic wastewater together with an inhibitor composition considered in this application can be used as a technically simple and affordable method for reducing corrosion losses and the influence of microbiological factors on corrosion processes in sewer pipeline hydraulic systems.

Claims (7)

1. A system for collecting, treating and transporting wastewater, containing a gas separation housing, a triethylene glycol regeneration housing, a water treatment complex and a domestic wastewater treatment plant, interconnected by means of pipelines for transporting wastewater, characterized in that four blocks are installed in the said premises dosing of chemical reagents, consisting of supply tanks equipped with nodes for introducing a corrosion inhibitor into protected pipelines for transporting domestic wastewater; each of the input assemblies includes a manual control valve, a drain valve connected by a chemical input pipeline, and a split flange with a supply tube equipped with a spray nozzle; the first dosing unit is installed in the gas separation housing, the second dosing unit is installed in the triethylene glycol regeneration housing, the third dosing unit is installed in the water treatment complex, and the fourth dosing unit is installed on the territory of the domestic wastewater treatment plant. 2. The system according to claim 1, characterized in that the pipelines of the chemical reagent injection units are made of stainless steel. 3. The system according to claim 1, characterized in that the diameter of the pipeline of the first chemical dosing unit is 32 × 3.0 mm. 4. The system according to claim 1, characterized in that the diameter of the pipeline of the second chemical dosing unit is 25 × 2.0 mm. 5. The system according to claim 1, characterized in that the diameter of the pipeline of the third chemical dosing unit is 38 × 3.0 mm. 6. The system according to claim 1, characterized in that the diameter of the pipeline of the fourth chemical dosing unit is 38 × 3.0 mm. 7. The system according to claim 1, characterized in that the pipelines are electrically heated and thermally insulated.

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