RU209259U1 - DENSITY-FLOWMETER FOR LIQUIDS - Google Patents

Abstract

The utility model relates to the field of automated recording and transmission of data on the density and instantaneous flow rate of the fluid injected by the pumping unit, in particular for recording the parameters of injection of acid, alkaline and aqueous solutions during well repair. a frame with a body of a vane flow meter fixed on it, a densitometer tank equipped with a weight sensor, a gas collector and a switch for transmitting measurement data to the data receiving and processing unit, while the flow meter is configured to withdraw part of the liquid to the densitometer tank connected to the gas collector, and return part of the liquid from the density meter through the gas collector. The technical result is an easy-to-operate and maintain device for real-time determination of the parameters of fluids injected into the well.

Description

The utility model relates to the field of automated recording and transmission of data on the density and instantaneous flow rate of the fluid pumped by the pumping unit, in particular for recording the parameters of injection of acid, alkaline and aqueous solutions during well repair.

A system for recording the parameters of fluids injected into a well is known (RF patent for invention No. 2539041, publ. 10.01.2015). The system includes an electromagnetic flow meter, which is equipped with a controller, which forms the basis of the first measuring module, a vibration density meter, equipped with a controller, which forms the basis of the second measuring module. The modules are built into the discharge line of the controlled media manifold, and a second measurement module is connected to the first measurement module by means of quick couplings, measuring density, temperature and pressure. The modules are connected to the computer using an information cable and a power supply. The computer is installed on a mounting base - a high cross-country chassis. The system is powered from the AC network through a voltage stabilizer or from the vehicle's on-board network.

Disadvantages of the known solution:

1. Installation of this system is carried out outside the chassis of the pumping unit, which requires time and human resources (piping, connection to the system).

2. The connection with the computer is carried out at the beginning of each work, as a result of the loss of time, and the control of the wires so as not to damage.

3. Working on a computer requires a qualified specialist with knowledge of a PC and special programs. The driver-operator does not always have these skills, and in addition, he is obliged to monitor the pumping unit and its mode of operation.

The technical task of the claimed utility model is to create a simple and reliable device in operation and maintenance for real-time determination of the parameters of process fluids injected into the well.

EFFECT: easy-to-operate and maintain device for real-time determination of parameters of fluids injected into a well.

The technical result is achieved by the fact that the densitometer-flowmeter for liquid media, installed on the platform of the pumping unit, contains a frame with a body of the vane meter fixed on it, a densitometer tank equipped with a weight sensor, a gas collector and a switch for transmitting measurement data to the data receiving and processing unit, with In this case, the flow meter is configured to divert part of the liquid to the capacity of the density meter connected to the gas collector, and return part of the liquid from the density meter through the gas collector.

The density meter-flowmeter is permanently mounted on the chassis of a vehicle equipped with a pumping unit and provides registration of the injection parameters of acid, alkaline and aqueous solutions during well workover. Installation of the device on the vehicle chassis is carried out once, after which, to start work, the operator just needs to enter the data on the work object (well number and type of work) and start pumping fluid.

The density flow meter includes a weight-type density meter and a vane-type flow meter. Additionally, a temperature sensor is built into the flowmeter housing.

The flow meter is mounted on the platform of the pumping unit and connected to the inlet tract of the pump. The pumped liquid passes through the cavity of the flowmeter housing. To measure the density, part of the pumped liquid enters the density meter for weighing and then returns back to the cavity of the flow meter. To measure the instantaneous flow, an impeller is used, the speed of which is controlled by a speed sensor.

Data from the density meter, flow meter and temperature sensor are transmitted via cable connections to the switch, which is mounted on the vehicle frame. From the switch, the data is transmitted to the receiving and processing unit located in the cab of the vehicle. Cable connections are routed along the frame to protect against damage. Processing, visualization of parameters is carried out in the receiving and processing unit. During work, the driver-operator sees the parameters on the color screen of the receiving and processing unit. All recorded parameters are transmitted in real time to a remote computer via a cellular network.

The unit for receiving and processing measurement data also performs the function of monitoring the output of values beyond the limits (sound and color indication). At the same time, the operation of the equipment is recorded (the operating time of the pump, its operation in accordance with the technical characteristics). The QUANTOR software installed on a remote computer allows you to control the execution of work at several sites.

The utility model is illustrated by the drawings:

Fig.1 - General view of the density meter-flowmeter;

Fig.2 - General view of the flow meter.

The density meter-flow meter consists of the following main structural units: frame 1, flow meter body 2, density meter tank 3, gas collector 4.

The frame is designed to protect against external influences and accommodate the elements of the density meter-flow meter. The frame is made of steel profile with a wall thickness of at least 2 mm. Horizontal jumpers are used to fasten the elements of the density meter-flow meter.

The body of the flowmeter 2 with the impeller 5 is fixed on the frame by means of screws. Speed sensor 6, temperature sensor 7, fitting 8a for withdrawing a portion of liquid into the density meter tank 3 and fitting 8b for returning a portion of liquid from gas collector 4 to flow meter 2 are installed on the flow meter body. Temperature sensor 7 is designed to measure the temperature of the pumped liquid, installed in the flow meter body . Speed sensor 6 is designed to control the number of revolutions of the flowmeter impeller.

Density meter tank 3 is a vertically oriented cylindrical tank fixed on the frame 1 by means of guides 9. In the lower part of the density meter tank there is a weight sensor 14, designed to register the weight of the liquid in the density meter tank 3. The sensor is fixed on the bracket 11 and consists of a strain gauge and adapter 12 connections to the density meter tank. The body of the load cell is made of aluminium. The weight of the density meter container 3 filled with liquid through the adapter 12, placed in the cage 13, is transferred to the body of the weight sensor 14. When the weight of the liquid in the density meter container 3 changes, the weight sensor body 14 is deformed. The strain gauge on the sensor body 14 registers the deformation and converts it into electrical a signal that is registered by the receiving and processing unit.

The capacity of the density meter in the lower part is equipped with a fitting 15 for supplying liquid from the flow meter and in the upper part - with a fitting 16 for discharging gas and liquid to the gas collector 4.

The gas collector 4 is designed to collect the separated gas from the pumped liquid and discharge it into the cavity of the flowmeter and is a cylindrical container placed above the container of the density meter 3 and fixed on the frame 1 by means of corners 17 and bracket 18. The gas collector is made with two fittings: inlet 19 from the container of the density meter and outlet 20 - into the cavity of the flowmeter 2. The gas collector is made of polypropylene elements.

Description of the device

The device is connected to the intake manifold of the pumping unit and operates in the area of reduced pressure. When the pump is running, the pumped liquid passes through the cavity of the flow meter 2. The impeller 5 rotates from the impact of the flow on its blades. The speed sensor 6 registers the number of revolutions of the impeller 5 and transmits the data to the receiving and processing unit for recalculation.

To record density data, the pumped liquid from the cavity of the flow meter 2 enters the tank of the density meter 3. Next, the liquid settles in the tank of the density meter 3 for 20-30 seconds to separate the gas from the liquid, after which it is weighed by a weight sensor 14. The released gas is discharged through a hose into gas sampler. The data from the weight sensor 14 is transmitted to the receiving and processing unit for recalculation. At the end of the weighing, the receiving and processing unit sends a signal to open the valve, a new portion of the liquid is fed into the density meter tank and displaces the previous one through the gas sampling device into the flow meter cavity to the area where the impeller is placed. The valve opening time is set by the user in the receiving and processing unit.

Placement of the flow meter-density meter on the platform of the pumping unit, the operation of which is accompanied by vibration, in particular, the execution of the densitometer fixed in the guides in a vertical position, provides accurate weight measurement even if the device is skewed. When shaking, the density meter container will slide off the guides and the weight will be perceived by the sensor. In addition, the weight sensor support has a spherical shape and the capacity of the density meter, with allowable distortions, will transfer loads with minimal errors.

Claims (5)

1. Density flow meter for liquid media, installed on the platform of the pumping unit and containing a frame with a body of a vane flow meter fixed on it, a density meter tank equipped with a weight sensor, a gas collector and a switch for transmitting measurement data to a data receiving and processing unit, while the flow meter is made with the possibility of withdrawing part of the liquid to the capacity of the density meter connected to the gas collector, and returning part of the liquid from the density meter through the gas collector. 2. Density flow meter according to claim 1, characterized in that the frame is made of a steel profile. 3. Density-flowmeter according to claim 1, characterized in that the capacity of the density meter is made in the form of a vertically oriented cylindrical capacity, fixed on the frame by means of guides. 4. The densitometer-flowmeter according to claim 1, characterized in that the density meter weight sensor provides registration of the weight of the liquid in the densitometer tank even in cases of inclination of the densitometer-flowmeter with minimal errors. 5. Density flow meter according to claim 1, characterized in that the support of the weight sensor has a spherical shape.

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