RU2844829C1 - Method of fluids injection into well and pump unit for implementation thereof - Google Patents

Abstract

FIELD: oil, gas and coke-chemical industry.

SUBSTANCE: group of inventions relates to oil industry and can be used for arrangement and stimulation of oil and gas wells, for example, by hydraulic fracturing. Method consists in the injection into the well process liquids volumetric flow rate control according to the program, generated by the pumping unit control system due to the liquid supply alternate or group exclusion at the outlet of the multi-cylinder plunger pump, for which, by the command of the control system, the suction valves installed in the cylinders at the pump inlet are forcibly retained in an open position.

EFFECT: reduced complexity, weight and dimensions of equipment with provision of specified level of quality of works performance.

2 cl, 3 dwg

Description

The group of inventions relates to the oil-producing industry and can be used to carry out work on the development and stimulation of oil and gas producing wells, for example, by the method of hydraulic fracturing (HF), when injecting drilling mud, for flushing, sandblasting the wellbore.

There are known methods for pumping liquid using a pumping unit, according to which the required feed schedule at the outlet of a multi-cylinder plunger pump is regulated by changing the frequency of the suction-pumping cycles of liquid in the working volume, for which the rotation speed of the power drive shaft is changed [1].

The specified methods do not provide the required range of flow control at the pump outlet at stable speeds of the power drive.

As a prototype for the claimed method of pumping the mixture into the well, a known method for performing hydraulic fracturing is adopted, according to which, depending on the design and controlled parameters at the wellhead, a schedule of liquid supply from an external source - a mixing unit, to the low-pressure inlet manifold of the pumping unit is formed. In the control system of the pumping unit, the supply schedule is converted into a program for a stepwise change in the rotation frequency of the output shaft of a multi-stage automatic transmission (automatic gearbox - AT) of the power drive, connected to a displacing multi-cylinder plunger pump. In the mechanical part of the pump, the rotational motion at its input is converted into reciprocating movements of the plungers. Thus, the most common method of volumetric regulation of the flow rate at the outlet of a plunger pump is implemented due to a change in the number of suction-discharge cycles in the pump cylinders over time [2].

The disadvantage of this method of injection is the applied power drive with automatic transmission, providing uninterrupted transmission of the power flow to the displacing multi-cylinder plunger pump under conditions of high dynamic loads when shifting gears during flow regulation. To prevent the supply of liquid to the well when the power drive is in neutral, an additional brake is required to prevent the pump shaft from rotating. All this leads to great complexity and increased weight and size characteristics of the hydromechanical part, control systems, cooling, heating of the automatic transmission oil and the power drive. In this regard, the cost of the automatic transmission equipment can reach 25% of the total cost of the pumping unit, and in the world there are only a few manufacturers of such devices that are monopolists in this field of technology ("Caterpillar", "Allison").

Pumping units for pumping liquid into a well are known, containing as a power unit an internal combustion engine, a two-shaft, two-flow, multi-speed, high-speed gearbox with additional gearboxes, which are connected to a hydraulic pump [3].

The disadvantage of these pumping units is the power drive used with a highly complex automatic transmission and increased weight and size characteristics.

As a prototype of a pumping unit for implementing the method of pumping the mixture into a well, a unit is adopted that includes a power drive with an automatic transmission and a cam brake, ensuring uninterrupted power transmission to a displacing multi-cylinder plunger pump, the input of which is connected by a low-pressure manifold to an external source of pumped liquid. In the mechanical part of the pump, the rotary motion of the input shaft is converted into reciprocating movements of the plungers, and to regulate the flow rate of liquid at the outlet of the pump due to the change in time of the number of suction-injection cycles in the cylinders, a control system for the operating modes of the unit is used, according to the commands of which the automatic transmission gears are shifted [4].

The disadvantages of the prototype power plant include the comments made about the method.

The technical task of the invention is to reduce the complexity, weight and size characteristics and cost of the pumping unit equipment while ensuring a specified level of quality of work when pumping liquids into a well according to a flow control program specified by the control system.

The specified technical problem is solved by the fact that in a known method of pumping liquid into a well, according to which the control system forms a program for feeding liquids from an external source through the inlet of a displacing multi-cylinder plunger pump into the well and regulates the flow rate at the outlet of the pump according to this program alternately or in groups, excluding the supply of liquid at the outlet of the pump cylinders, for which purpose the inlet to the cylinders is forcibly fixed in the open position.

The said technical problem is solved by the fact that for the implementation of the method of pumping liquid into a well, a known pumping unit is used, including a power drive, ensuring continuous power transmission to a displacing multi-cylinder plunger pump, the input of which is connected by a low-pressure manifold to an external source of pumped liquid, and a control system for the operating modes of the unit is used to regulate the flow rate of liquid at the pump output. In accordance with the invention, a valve with a device for forced fixation in the open position is installed at the input to each cylinder from the low-pressure manifold, the actuator of which is connected to the control system for receiving commands to open the valve according to the pumping program.

A comparative analysis of the claimed method of pumping liquids into a well in comparison with the prototype shows its difference in that with stepwise regulation of the operating modes of the pumping unit, instead of switching the automatic transmission gears alternately or in groups, the supply of liquid at the outlet of the pump cylinders is excluded, for which purpose the inlet to the cylinders is forcibly fixed in the open position. Thus, in the cycle of the reciprocating movement of the pump plunger, the phase of liquid displacement under the pressure necessary to open the outlet from the cylinder is excluded. A combination of the number of simultaneously forcibly opened inlets from the manifold to the cylinders achieves a stepwise change in the flow rate at the pump outlet, ensuring a continuous transfer of the power flow from the power drive. With all inlets open, liquid does not enter the well in all operating modes of the power drive.

The essence of the invention lies in the design of a pumping unit, wherein for the implementation of the proposed method of pumping liquid supplied from an external source into a well without interrupting the power flow from the power drive to the input shaft of the displacing multi-cylinder plunger pump, stepwise regulation of the feed at the pump outlet is ensured due to newly introduced devices for forced fixation in the open position of the inputs from the low-pressure manifold to each cylinder. The forced fixation device is made in the form of a valve interacting with an actuator, which is connected to the control system for receiving commands to open and fix the valve according to the generated pumping program. Changing the number of simultaneously open inputs to the pump cylinders is similar in function to shifting gears in an automatic transmission.

The essence of the invention and the possibility of its implementation are explained in Fig. 1-3, where

Fig. 1 shows graphs of the dependence of the liquid flow rate Q on the pressure P for a pumping unit when regulating a five-plunger pump by shifting gears of a seven-speed automatic transmission and when regulating using the proposed method, where i is the gear number, and n is the number of pump cylinders with inputs fixed in the open position;

Fig. 2 shows a drawing of a pumping unit in accordance with the invention formula;

Fig. 3 shows a drawing of the hydraulic part of a five-plunger pump with a section through the valve box and details of the inputs from the manifold into the working volume of the pump.

The graphs of the dependence of the liquid flow rate Q on the pressure P in Fig. 1 show that when pumping liquid into a well using the proposed method shown in Fig. 2 by the pumping unit 1 with a power drive 2 with a capacity of 3000 hp and a five-plunger pump 3 (plunger diameter 100 mm and stroke 200 mm), the regulation of the feed due to forced alternate or group fixation of the inputs to the cylinders with plungers 10 (Fig. 3) in the open position is similar in quality and results to the regulation of gear shifting of a seven-speed automatic transmission of the same pumping unit according to the prototype.

Pumping unit 1 (Fig. 2) is equipped with a power drive in the form of a diesel engine 2, connected by means of a cardan shaft 3 to the mechanical part of a displacement five-plunger pump 4, the low-pressure manifold 5 of which is connected to an external source, for example, to a mixer of the GRP fleet, and the hydraulic part 6 of the pump is connected with its output through a high-pressure manifold 7 to the wellhead. The pumping process is carried out according to a program generated in the equipment of the control system 8 of the pumping unit 1. The hydraulic part 6 (Fig. 3) contains five valve boxes 9 with plungers in cylinders 10, at the inlet of each of which a suction valve 11 is installed, which cuts off the low-pressure manifold 5 from the working volume of the pump in the phase of the pumping stroke of the plunger in the cylinder 10. At the outlet of the valve box, a valve 12 is installed, which cuts off the working volume of the pump 4 from the high-pressure manifold 7 in the phase of the suction stroke of the plunger in the cylinder 10. The suction valve 11 interacts with the pusher 13 of the device for forced fixation of the inlet to the cylinder in the open position, the actuator 14 of which is connected via command transmission lines 15 to the equipment of the control system 8 of the pumping unit 1.

When pumping liquid into the well, the pumping unit 1 operates as follows. In the initial position, the high-pressure manifold 7 is pre-filled with liquid, and all the suction valves 11 are in the open position under the action of the pushers 13. When the power drive 2 is operating, the torque is transmitted through the cardan shaft 3 to the mechanical part of the pump 4, where it is converted into a reciprocating motion of the plungers in the cylinders 11, while the liquid supplied from an external source to the low-pressure manifold 5 enters the working volume of the valve boxes 9 in the phase of the suction stroke of the plunger 11 and returns back in the phase of the injection stroke of the plunger, since the pressure at the outlet of the pump is greater than the pressure in its working volume, the valve 12 is closed. Upon receipt of a message about the required injection flow rate into the well from the higher-level control system to the pumping unit 1, the control system 8, in accordance with the control schedule (Fig. 1), generates and transmits commands via communication lines 15 to the required actuators 14, which remove the pushers 13 from contact with the valves 10, ensuring a guaranteed gap h in the “valve closed” position.

Thus, all the listed distinctive features of the method of pumping liquid into a well and the pumping unit for its implementation allow to reduce the complexity and weight and size characteristics of pumping units by eliminating the automatic transmission with a leash brake and their cooling, pre-heating and lubrication systems, simplify the software of the pumping unit control system. At the same time, to ensure a given level of quality of work with a significant reduction in the cost of both equipment and its operation and repair.

Sources of information

1. Vilner Ya.M., Kovalev Ya.T., Nekrasov B.B. Reference manual on hydraulics, hydraulic machines and hydraulic drives: edited by B.B. Nekrasov. Minsk: Higher School. 1976. - pp. 236-239, 348-350.

2. Economides M., Olini R., Valko P. Unified design of hydraulic fracturing: from theory to practice. Moscow - Izhevsk: Institute of Computer Research. 2007. - 236 p.

3. Power unit of a pumping unit for deep-penetrating hydraulic fracturing of bridges of isolated cavities of oil and gas formations. Patent RU 2788355, 05.08.2022.

4. INTI Standard S. 100.5-2021. For fleet installations for hydraulic fracturing (HF). Standard technical requirements. ANO Institute of Oil and Gas Technological Initiatives, inti.expert. (IS "TechExpert: 6th generation". Internet).

Claims (2)

1. A method for pumping liquids into a well, in which, using a control system for the operating modes of a pumping unit, a program is formed for feeding liquids from an external source through the inlet to the working chamber of a displacement multi-cylinder plunger pump into the well and the flow rate at the outlet of the pump is regulated according to this program, characterized in that the flow rate regulation is ensured by excluding the supply of liquid at the outlet of the cylinders of the pumping unit, for which purpose the suction valves installed at the inlet of each of the cylinders of the pumping unit are forcibly fixed in the open position, one by one or in groups. 2. A pumping unit for pumping liquids into a well, including a power drive that ensures continuous power transmission to a multi-cylinder plunger displacement pump, the inlet to the working chamber of which is connected to an external source of pumped liquid through a low-pressure manifold, and a control system for the operating modes of the unit, designed with the possibility of regulating the flow rate of liquid at the outlet of the pumping unit, characterized in that at the inlet to each cylinder from the low-pressure manifold there is a suction valve with a device for forced fixation in the open position, the actuator of which is connected to the control system to receive commands for its opening.