RU50426U1 - BATTERY WATER DISCHARGE SYSTEM - Google Patents

Abstract

The utility model relates to the oil industry, namely to the collection and preparation of well products, is intended for the preparation and separation of gas-oil mixture, and relates to devices and methods for preparing produced water. The technical task of the utility model is a more complete and optimal use of existing technological equipment and improving the quality of preparation and collection of both commercial oil and produced water, simplifying operation and improving environmental protection requirements. The stated technical problem is achieved by applying a system of formation water discharge when achieving a more complete discharge of formation water at the oil treatment unit. The specified technical result is achieved by the fact that the formation water discharge system consists of crude oil tanks, end phase divider (KDF), input and output pipelines connecting technological equipment, pumping units, control and automation devices, shut-off and control equipment, while pipelines made in the form of collectors connected in series with each other along the course of the formation water from the beginning of the preparation process to the end. What is new is that part of the existing crude oil processing technology has been converted into reservoir water discharge tanks and connected via additional pipelines to pumping units with the possibility of transporting formation water to a discharge line.

Thus, the proposed utility model allows to achieve the desired technical result. The use of a new technological solution will significantly reduce capital and operating costs for the development of oil fields, in particular, units for preliminary discharge and treatment of produced water by increasing the specific productivity of crude oil tanks while improving the stability of the process and the absence of a complex automation system. The produced water discharge system is tight, does not require communication with the atmosphere, and therefore emissions to the atmosphere are eliminated, which allows the environment to be met. This implementation of the system allows the collection of produced water from the oil treatment unit, which leads to a multiple decrease in the volume of liquid prepared at the installation, unloading of pumping units, pressure reduction and increase in oil preparation. The application of the proposed reservoir water discharge system allows to increase the volume and quality of the produced water and allows to increase the productivity of the prepared oil installation, thereby improving the quality of the oil preparation, and increasing the operational reliability of the installation when operating in oilfield conditions. The formation water discharge system is made in strict accordance with the regulatory requirements for fire and explosion safety, meets the requirements for labor protection and environmental protection. 1 ill.

Description

The utility model relates to the oil industry, namely to the collection and preparation of well products, is intended for the preparation and separation of gas-oil mixtures, and relates to devices and methods for producing produced water in oil treatment plants.

One of the conditions ensuring the reliability of technological equipment and the stability of the operational parameters of oil field treatment plants is the precise regulation of the oil-water phase separation in settling tanks, which determines the quality of the oil and produced formation water that is prepared at the plants.

A well-known system for the comprehensive preparation of well products, including an inlet pipe, gas separators, multi-purpose tanks and water treatment tanks with an oil zone, pumps, compressors, an outlet pipe, shut-off and control valves, control and automation devices, as well as a hydrodynamic pipe extractor, the reception of which is connected to inlet pipe, and the outlet with a gas separator, a multi-purpose tank and a gas separator installed in series with the pump, heater and a second hydrodynamic pipe a pusher extractor connected to a multi-purpose tank, while the water purification tank is equipped with a gas extraction and compression line connected to the outlet pipe. (AS USSR No. 1632452 MPK V 01 D 17/00 "System for the comprehensive preparation of well products").

The disadvantages of the known system are: the complexity of operation due to multi-stage preparation, as well as high metal consumption.

A well-known installation for the preparation of well products, including a soothing section, a depulsator, a cylindrical horizontal

a tank, a pipeline for taking free water from a stilling site, a pipe connected to a pipeline for taking free water from a stilling place and valves installed on the pipelines (AS USSR No. 1068140 "Installation of preparation of well products", 1984)

The disadvantage of this installation is that it is intended for preliminary separation of water at booster pumping stations, remote from the central points of preparation, which leads to an increase in energy costs, metal consumption and reagent consumption.

A well-known oil field treatment scheme consisting of separators, sump tanks equipped at the top with oil collectors, product tanks, an oil heater, a tank for discharging and treating water and a dosing pump, and sump tanks operate in parallel and alternately to discharge non-decomposed sump tanks a stable emulsion of oil for re-preparation, an emulsion collection tank is additionally used, where each of the settling tanks is connected with the possibility of communication through cutting the oil collectors in the upper part with any of the commodity tanks and through the receiving and dispensing pipes with the emulsion collector tank, and the water preparation tank with the upper part equipped with the oil collector is connected to the emulsion collector tank. (RF patent No. 2142093 IPC F 17 D 3/14 “Scheme of field oil treatment”).

The disadvantages of this scheme are the complexity of operation, due to the presence of a large number of sedimentation tanks, reservoirs, multi-stage oil treatment and a complex system of formation water discharge.

The technical task of the utility model is a more complete and optimal use of existing technological equipment and improving the quality of preparation and collection of both commercial oil and produced water, simplifying operation and improving protection requirements

the environment.

The stated technical problem is achieved by applying a formation water discharge system when achieving a more complete discharge of formation water at the oil treatment unit.

The specified technical result is achieved by the fact that the formation water discharge system consists of crude oil tanks, an end phase divider (KDF), inlet and outlet pipelines connecting the processing equipment, pumping units, monitoring and automation devices, shut-off and control equipment, while the pipelines are made in the form of collectors connected in series with each other along the course of the formation water from the beginning of the preparation process to the end.

What is new is that for a more complete and optimal use of process equipment, some of the existing crude oil processing technology has been converted into reservoir water discharge tanks and connected via additional pipelines to pumping units with the possibility of transporting formation water to a discharge line.

The proposed utility model is illustrated in the drawing, where:

figure 1 - shows the proposed system of discharge of produced water at the installation of oil treatment.

Currently, tanks 1-3 operate as crude oil buffers in an oil preparation unit. With an increase in the volume of oil treatment, KDF cannot cope with the volume of incoming liquid, and therefore, the water cut of crude oil after KDF is ~ 20%. To increase the productivity of the oil treatment unit, it is necessary to install two additional tanks for preliminary discharge of produced water (one of the options).

It is proposed to re-bind part of the existing crude oil tanks 1 and 2 to the tanks for preliminary discharge of produced water, and

Crude oil tank 3 should be left as a buffer tank for crude oil.

The proposed system of discharge of produced water (figure 1) has the following design:

It includes crude oil tanks 1-3, terminal phase divider (KDF) (not indicated in Fig.), Inlet and outlet pipelines connecting process equipment, pumping units, control and automation devices, shut-off and control equipment, while the pipelines are made in the form of collectors connected in series with each other along the course of the formation water from the beginning of the preparation process to the end.

Two of the three existing crude oil tanks 1 and 2 were converted into reservoir water discharge tanks. Crude oil capacity 3 is a buffer. Tanks 1-3 are connected by an oil collection line 4. The formation water discharge system includes a water discharge line 5.

The operation of the formation water discharge system at the oil treatment unit is carried out as follows: crude oil from the end divider enters the reservoir water discharge tanks 1 and 2, where the sludge and separation process takes place, i.e. to produced water and oil. Next, the separated oil through the oil collection line 4 enters the tank of captured oil 3 and is pumped out by existing pumping units. From the reservoirs of produced water 1 and 2, the prepared produced water is pumped out by pumping units to the cluster pump station (KNS) along the water discharge line 5.

This will reduce the water cut of crude oil up to 12%, which will increase the productivity of the plant by 300-400 tons / day., I.e. by 10%, it will provide an increase in the liquid sludge settling time at the unit with formation water drainage and will improve the quality of oil and formation water treatment.

Thus, the proposed utility model allows to achieve the desired technical result.

The application of this technological solution will significantly reduce the capital and operating costs for the development of oil fields, in particular, units for preliminary discharge and treatment of produced water by increasing the specific productivity of crude oil tanks while increasing the stability of the process and the absence of a complex automation system.

The produced water discharge system is tight, does not require communication with the atmosphere, and therefore emissions to the atmosphere are eliminated, which allows the environment to be met.

This implementation of the system allows the collection of produced water from the oil treatment unit, which leads to a multiple decrease in the volume of liquid prepared at the installation, unloading of pumping units, pressure reduction and an increase in the volume of oil treatment.

The application of the proposed reservoir water discharge system allows to increase the volume and quality of the produced water and allows to increase the productivity of the oil treatment plant, thereby improving the quality of the oil treatment, and increasing the operational reliability of the installation when working in oil fields.

The formation water discharge system is made in strict accordance with the regulatory requirements for fire and explosion safety, meets the requirements for labor protection and environmental protection.

Claims (1)

A reservoir water discharge system at an oil treatment plant containing crude oil tanks, an end phase divider, input and output pipelines connecting process equipment, pumping units, control and automation devices and shut-off and control equipment, the pipelines being made in the form of series-connected to each other another collector along the flow of produced water from the beginning of the preparation process to the end, characterized in that part of the existing crude oil tanks for the preparation of technology re-processed udovana in the produced water discharge vessel and is connected by means of additional piping with pumping units, with a conveying produced water discharge line.