RU2685092C1 - Apparatus for determining characteristics of backfill cement, mixtures and solutions - Google Patents

Abstract

FIELD: measurement technology.SUBSTANCE: present invention relates to a device for determining characteristics of plugging cements, mixtures and solutions used in cementing oil and gas wells obtained in conditions simulating boreholes on temperature of up to 200 °C and pressure of up to 100 MPa. Plant for determining characteristics of grouting mortars contains a base, an autoclave provided with a cavity for installation of a device for determining characteristics, a heating and cooling system, a cap with a cap nut and handles for holding the cover, as well as an oil pump with a pressure gauge for providing pressure rise in the autoclave, a computer connected to the control unit, and a drive for appliance, wherein it comprises two autoclaves installed on the flange in the middle part of the base, made of a frame structure in the form of a parallelepiped, with a front wall in the form of two rotary door flaps, a back wall made perforated to provide air circulation and fixed in the upper part of the base, panel with windows for installation of indicating devices fixing operating condition of installation and valves for pressure release in autoclaves, wherein oil pumps are installed on shelves rigidly fixed on side walls of base, and drives for detachable appliances are fixed by means of hooks rigidly fixed on side walls of base, at that, in the lower part of the base there fixed are supports, which are adjustable as to height, to provide for horizontality and rollers for provision of the plant movement possibility, and to enable removal of pressure union nuts from autoclave on the back wall of the base there are vertically fixed guides for installation of hollow rotary L-shaped brackets, one end of which is equipped with a holder in form of a hook for connection with pressure union nuts. Device for preparation of grouting mortar and electric motor can be reinforced by magnetic coupling for load transfer during rotation of measuring frame, and also equipped with cooling system made with possibility of cooling control.EFFECT: broader functional capabilities, high reliability and safety of operation for personnel, as well as ease of maintenance.3 cl, 4 dwg

Description

The present invention relates to a device for determining the characteristics of grouting cements, mixtures and solutions used in the cementing of oil and gas wells, obtained under conditions simulating borehole at temperatures up to 200 ºС and pressures up to 100 MPa.

When conducting tests to determine the characteristics of grouting cements, mixtures and mortars, forced downtimes take considerable time due to the duration of the cooling of the autoclave between tests, which increases the time to obtain data on test results.

A device designed to determine the main parameters characterizing the quality of cement slurries, adopted as a prototype, contains a base, an autoclave equipped with a cavity for installing a device for characterization, as well as a heating and cooling system, a cap with a flare nut and handles for holding the cap , an oil pump with a pressure gauge to provide pressure rise in the autoclave, a computer connected to the control unit and a drive to fit (see Consistometer high Whose pressure ZM-1003, produced by LLC NPK "ZIP - Magnitonika" (zmag.ru).

The known device is intended only to determine the consistency (viscosity) of the cement slurry and has several disadvantages.

The base is made in the form of a small rectangular platform installed on the floor, on which the autoclave, the control unit, the oil pump, and the drive for fitting the determination of viscosity are compactly placed. The computer is wired to the control unit, while the wire connecting the computer to the control unit and the hoses connecting the autoclave to the pump and cooling system are on the surface and it is possible that the laboratory technician can hook on with his foot during testing.

The autoclave is equipped with a removable, with significant weight, a clamping nut with handles for holding the lid, which during testing is often removed and put on by laboratory technicians, often women, and which must be transferred to a work table that is not always nearby. It is not recommended to put the clamping nut on the floor in order to avoid contamination of the threaded connection on it.

The pressure relief valve in the autoclave is connected to the oil pump with a flexible silicone hose. During device operation, spontaneous removal of the flexible hose from the autoclave nipple during pressure relief is possible, with the result that a laboratory technician near the device may get burned. In addition, when the pressure is released, the oil directly enters the oil pump and cement particles can get inside the pump and disable it.

During the tests, the device allows recording the current values of temperature, pressure and consistency in the memory block only at intervals of 1 to 10 min per point, resulting in an inaccurate and time-limited graph. When recording all data every 1 min, the maximum test time is only 8 hours.

In addition, the cooling system of the autoclave is equipped with a magnetic valve to connect with an external cooling source and does not have the ability to regulate the cooling of the autoclave, while simulating the cementing of the upper well interval, the test solution must be cooled to the bottom hole temperature of the desired interval.

The technical problem and the result of the proposed device is to expand the functionality, increase the reliability and safety of work for personnel, as well as the convenience of its maintenance.

The technical problem is solved by the fact that the installation for determining the characteristics of cement slurries contains a base, an autoclave equipped with a cavity for installing a device for determining the characteristics, a heating and cooling system, a cap with a cap nut and handles for holding the cap, as well as an oil pump with a pressure gauge to ensure lifting pressure in the autoclave, a computer connected to the control unit and a drive for the device, while it contains two autoclaves installed on the shelf in the middle These bases are made as a parallelepiped frame construction, with a front wall in the form of two pivot door leaves, a rear wall made perforated to allow air circulation and fixed in the upper part of the base, a panel with windows for installation of indicating devices fixing the operating state of the installation and cranes for pressure relief in autoclaves, and oil pumps are installed on shelves rigidly fixed on the side walls of the base, and the drives for removable devices are fixed using hooks rigidly fixed to the side walls of the base, while in the lower part of the base there are fixed height-adjustable supports to ensure horizontal positioning and rollers to allow movement of the installation, and to ensure the possibility of removing clamping cap nuts from autoclaves on the rear wall of the base vertically fixed guides for installation of hollow swivel L-shaped brackets, one end of which is provided with a holder in the form of a hook for connection with clamping cap nuts.

A device for the preparation of cement slurry and an electric motor are reinforced with a magnetic coupling to transfer the load when the measuring frame is rotated. The cooling system is designed to regulate cooling.

Installation is simple and reliable in operation.

The installation allows you to ensure the effectiveness of laboratory testing, reducing the time to obtain test data and eliminate the two main causes of forced downtime due to the cooling time between testing and maintenance, which includes the preparation of cement mortars, filling devices for characterization or preparation of containers for the manufacture of samples .

The ability to use replaceable devices in the installation allows not only to carry out tests to determine the viscosity of the cement slurry, but also to prepare solutions for other tests, for example, to measure free water content, water loss tests, and also to use the installation for determining the linear expansion of cement stone and molding and holding samples.

The proposed device is illustrated by drawings, where figure 1 shows a general view of the device, front view; in fig. 2 - the same, rear view; in fig. 3 - the same, side view; in fig. 4 the detail A of FIG. one.

 The installation for determining the characteristics of cement cements, mixtures and mortars consists of base 1, made frame structure in the form of a parallelepiped, for example, from pipes of rectangular section, with shelf 2 in the middle part for installing two autoclaves 3. The front wall of the base is formed by two opening door leaves 4 to install the equipment, and the back wall 5 is made of perforated metal sheet to ensure air circulation. The lower part of the base 1 is equipped with height-adjustable supports 6 to ensure horizontal position and rollers 7 to allow the installation to move along the floor if necessary. The upper part of the base 1 is made with panel 9 fixed by means of brackets 8 and provided with windows for installing indicating devices for each of the autoclaves: touch monitor 10, pressure gauge 11, network 12 button, engine 13 off button during testing and connection 14 "Measuring unit, as well as fixing the operating state of the autoclave 3 light bulbs 15" accident ", light bulb 16" heating ", light bulb 17" cooling "and a window for taps 18 for pressure relief (the window is not shown in the drawing).

The control unit is installed behind the panel 9 (the control unit is not shown in the drawing).

Communications to connect equipment installed on base 1 (wires and hoses) are placed inside base 1 and do not interfere with testing and the movement of technicians (wire and hoses are not shown in the drawing).

On either side of the side walls of the base, the shelves 19 are rigidly fixed for the installation of oil pumps 20.

On both sides of the side walls of the base on the brackets 8, hooks 21 (holders) of drives 22 for removable devices 23 used in the tests are rigidly fixed (removable devices are not shown in the drawing).

On the upper plane of the base between the autoclaves fixed removable pan 24 for the installation of components required for testing.

On the back wall of the base opposite each autoclave 3, guides 25 are vertically fixed, made in the form of a pipe for mounting one end of the hollow rotary L-shaped brackets 26. Blocks 27 and a cable 28 are located inside each L-shaped bracket 26. At one end of the cable 28 the holder 29 is fixed in the form of a hook for connecting with a clamping nut 30 with handles 31 to enable removal and installation of the cover on the autoclave 3, and at the other end of the cable 28 - load 32 (weights) balancing the weight of the clamping nut 30 from the handle vkami 31.

To connect the cooling system of the autoclave 3 with an external cooling source, a 2-way ball valve with an electric drive is installed for remote (remote) control of the working medium flow, which can regulate the cooling of the autoclave 3 (the ball valve and the electric drive are not shown in the drawing).

Each autoclave 3 is made with a cavity for installing devices 23 for carrying out tests performed removable and replaceable, for example, to determine the viscosity of cement slurry, to prepare solutions for measuring free water content, to test the water loss, and to determine the linear expansion of cement stone, molding and holding samples (cavity in the drawing is not shown).

The motor and fixture 23 for the preparation of cement slurry are reinforced with a magnetic coupling to transfer the load when the measuring frame rotates (the electric motor and the magnetic couplings are not shown in the drawing).

Installation for determining the characteristics of cement cements, mixtures and solutions works as follows.

The program for testing laid in the control unit installed behind the panel 9.

The operation of the device begins with the choice of alternating the installation of devices 23 in autoclaves 3 for conducting tests of different duration, thus ensuring the possibility of working in parallel on two autoclaves 3 and reducing the time to obtain data on test results.

Depending on the type of test, a device 23 is first prepared for installation in one autoclave 3, for example, a cement slurry is prepared for the first autoclave to determine the thickening time, and for the second, a solution for holding the samples.

 Then the button 12 "network" at the same time include the first and second autoclave 3, while the program starts automatically. On the sensor monitors 10, the parameters required for the test solutions are entered. Before the start of the test, there is a preliminary alternate heating of the autoclaves 3.

After heating one autoclave 3, unscrew the clamping nut 30 by the handles 31, fix it by means of the holder 28 on the L-shaped lever and turn it relative to the base 1 to the side, leaving the holder 28 on the weight, then remove the cover of the autoclave 3. In the cavity of one autoclave 3 install the previously prepared device 23, for example, for testing for the time of thickening of the cement slurry, and the other - device 23, for holding the samples, after which the roofs are installed in the reverse order y and the clamping nut 30 and tighten it on the body 3 of the autoclave handles 31. Then, the further heating of the autoclave 3, accompanied by a blinking light bulb 16, "heating". Upon completion of the test, the cooling of the autoclave 3 will automatically turn on and the “cooling” lamp 17 will light up. If necessary, the cooling can be turned on manually by setting the desired temperature on the touch monitor 10.

During the test, both on one autoclave 3 and on the other, if one of the parameters exceeds the permissible value or some kind of failure occurs, the control lamp 15 “alarm” will light up and the cooling will turn on.

 If necessary, stop the rotation of the measuring frame fixtures 23 to determine the viscosity of the cement slurry using the button 13 to turn off the engine 22, and in order to continue the rotation of the measuring frame include the engine 22 by the button 13.

Installation for determining the characteristics of cement cements, mixtures and solutions allows to reduce the time for testing by working in parallel on two autoclaves 3.

Claims (3)

1. Installation for determining the characteristics of cement cements, mixtures and solutions, containing a base, an autoclave, equipped with a cavity for installing a device for determining the characteristics, as well as a heating and cooling system, a cap with a flare nut and handles for holding the lid, as well as an oil pump with a pressure gauge to provide pressure rise in the autoclave, a computer connected to the control unit, and a drive for the device, characterized in that it contains two autoclaves installed on the shelf in the middle part of the base, made of a parallelepiped frame construction, with a front wall in the form of two pivot door leaves, a rear wall, perforated to ensure air circulation and fixed in the upper part of the base, a panel with windows for installation of indicating devices fixing the operating state of the installation and cranes for pressure relief in autoclaves, with oil pumps installed on shelves rigidly mounted on the side walls of the base, and drives for removable devices closed captives by means of hooks rigidly fixed on the side walls of the base, while in the lower part of the base there are fixed height-adjustable supports to ensure horizontal positioning and rollers to allow movement of the installation, and to enable the removal of clamping cap nuts from autoclaves on the rear wall of the base, the guides are vertically fixed for installation of hollow swivel L-shaped brackets, one end of which is provided with a holder in the form of a hook for connection with clamping cap nuts. 2. Installation for determining the characteristics of cement cements, mixtures and solutions according to claim 1, characterized in that the device for the preparation of cement slurry and the electric motor are reinforced with a magnetic coupling to transfer the load during rotation of the measuring frame. 3. Installation for determining the characteristics of cement cements, mixtures and solutions according to claim 1, characterized in that the cooling system is adapted to control the cooling

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