RU69562U1 - INSTALLATION FOR DOSED DELIVERY OF CHEMICAL REAGENTS TO A WELL - Google Patents

Abstract

The unit is designed for dosed supply of a chemical reagent into a well or pipeline for transporting oil in order to prevent and remove scaling, corrosion products, and oil demulsification. The container (1) is equipped with a chemical flow meter, made in the form of a pressure sensor 2. A pressure sensor (2) is installed in the lower part of the container (1) and is electrically connected to the electric drive (4) of the pump (3). The pressure sensor (2) has a node (6) connected to the remote monitoring and control system of the oil field. The installation provides the ability to control the filling of the container (1) and stop the pump (3) upon reaching the lower limit level of chemicals in the container (1), determine both the current and total consumption of chemicals, as well as the ability to remotely control and control the flow of chemicals. 1 ill.

Description

The utility model relates to the oil and gas industry and can be used for dosed supply of a chemical reagent into a well or pipeline for transporting oil in order to prevent and remove salt and / or asphalt-resin-paraffin deposits (AFS), corrosion products, and oil demulsification.

Known installation for supplying a chemical reagent to the well, (patent RU No. 2231628, IPC ⁷ ЕВВ 37/06, publ. 2004, RF patent №2142553, IPC ⁶ ЕВВ 37/06, publ. 1995), containing a container for chemicals, a dispenser in the form of a plunger pump with a line for injecting chemicals into the well.

The disadvantage of such installations is the lack of control of the current and total consumption of chemicals, which can lead to the supply of insufficient or excess quantities of chemicals to the well. When the supply of chemicals is insufficient, the efficiency of removing salt and / or asphalt-resin-paraffin deposits (AFS), corrosion products, and oil demulsification decreases. Excessive supply of chemicals leads to inappropriate consumption. In addition, in such installations there is no possibility of remote monitoring and control of the consumption of chemicals.

Closest to the technical nature of the claimed installation and adopted as a prototype is the installation (US Pat. RF No. 2242586, IPC ЕВВ 37/06, published on December 20, 2004), containing a container for a chemical agent, equipped with a flow meter of chemical agents, and a pump, the injection line of which has a connection node with the annulus of the well. The flow meter is made in the form of an indicator of the piston stroke, which allows you to control the current flow of chemicals.

However, at such a facility, it is not possible to determine the total consumption of chemicals and the ability to remotely monitor and control the flow of chemicals.

The objective of the proposed utility model is to provide the ability to determine the total consumption of chemicals and the ability to remotely control and manage the flow of chemicals.

The problem is solved by improving the installation, containing a container for a chemical reagent, equipped with a flow meter of chemical reagents, and an electric pump unit, the discharge line of which has a junction with the annular space of the well or pipeline for oil transportation.

This improvement consists in the fact that the chemical meter is made in the form of a pressure sensor installed in the lower part of the container and electrically connected to the pump electric drive, which allows determining not only the current, but also the total chemical consumption both in volume units and in mass units. In addition, this embodiment of the flow meter allows you to use it as a level indicator for monitoring and controlling the levels of chemicals in the container to prevent overfilling of the container when exceeding the upper limit level and stopping the pump when the level drops below the lower limit level.

In addition, the pressure sensor may have a connection node with a remote monitoring and control system for the oil field, which allows remote monitoring and control of the installation from the control room of the oil field.

The utility model is illustrated in the drawing, which schematically shows the proposed installation with a plunger metering pump.

Installation for dosed supply of chemicals into the well contains a container 1, equipped with a meter for the consumption of chemicals, made

in the form of a pressure sensor 2. The electric pump unit comprises a pump 3 with an electric drive 4. The discharge line 5 of the pump 3 is connected to the annulus of the well or to the oil transport pipeline (not shown). A chemical flow meter (pressure sensor 2) is installed in the lower part of the container 1 and is electrically connected to the electric drive 4 of the pump 3. The pressure sensor 2 has a node 6 for connection to a remote monitoring and control system for the oil field. In the above embodiment, the electric drive 4 is kinematically connected with the plunger 7 of the pump 3 for supplying a chemical reagent. The operation of the actuator 4 is controlled from the control unit 8, which includes the software for the control station SU SUV MINI-BEUS-4 and the device that turns on / off the drive 4 of the pump 3. SU SUV MINI-BEUS-4 sets the number of strokes per unit time of the plunger 7, providing the required volume chemical agent injection at a constant (unchanged) injection volume in one stroke of the plunger 7 of the pump 3. The pressure sensor 2 is connected to the electric drive 4 of the pump 3 through the control unit 8.

The proposed installation works as follows.

Fill the container 1 to the upper limit level, which is determined by the pressure sensor 2 located at the bottom of the container 1. The pressure sensor 2 turns off the filling system of the container 1.

Before turning on the unit, the required total amount of chemical reagents injected into the well is determined for work, for example, to prevent or remove scaling and / or corrosion products in the well; determine the amount of injection of the reagent for one swing of the plunger 7 of the pump 3. Set up SU SU-MINI-BEUS-4 of the control unit 8 to the desired frequency of movement of the plunger 7 of the pump 3, providing reciprocating movement of the plunger 7 with the data required

conditions of the well by supplying chemicals to the well or pipeline transporting oil, where the effect of chemicals on salt deposition and / or corrosion products. When chemicals are supplied, the signal from the pressure sensor 2 is converted to units of volume and / or mass and displayed on the control unit to determine the current and total flow rate in real time, in addition, the operation parameters and reasons for the shutdown of the installation are archived in the memory unit (not shown ), which allows you to determine the current and total consumption of chemicals for a specified period of time. When the level of chemicals in the container 1 decreases to the lower limit, a signal is sent from the pressure sensor 2 to stop the pump 3 and fill the container 1. If necessary, the filling of the container 1 and the operation of the pump can be controlled from the remote control and oilfield control, transmitting signals through unit 6 to the control system MINI-BEUS-4 control unit 8.

Thus, the proposed installation provides the ability to control the filling of the container and stop the pump when reaching the lower limit level of chemicals in the container, determine both the current and total consumption of chemicals, as well as the ability to remotely control and control the flow of chemicals.

Claims (2)

1. Installation for the dosed supply of chemicals into the well, containing a container for chemicals, equipped with a meter for the consumption of chemicals, and an electric pump unit, the discharge line of which has a connection with the annulus of the well or the pipeline for oil transportation, characterized in that the meter for the flow of chemicals is made in the form of a sensor pressure installed in the lower part of the container for chemical reagents and electrically connected to the electric pump unit. 2. Installation according to claim 1, characterized in that the pressure sensor has a connection node with a remote monitoring and control system for the oil field.