RU2244095C1 - Device for precise cleaning and regeneration of drilling solutions weighting material - Google Patents

Abstract

FIELD: oil and gas extractive industry.

SUBSTANCE: device has pump connected by pipeline for feeding drilling solution, centrifuge with inlet, draining and slurry branch pipes, loading cone with filter and side channel, circulation chute with flooded wall and mixer, provided with mixing blades, receiving tank at same level with bottom of circulation chute, slanted vibration chute mounted below centrifuge above circulation chute on resilient support. On pipeline for feeding drilling solution lock-adjusting armature, flow meter and hydraulic mixer with line for feeding technological liquid, connected to pump for feeding technological liquid and provided with lock-adjusting armature and flow meter, are placed. In zone of effect of mixing blades of mixer a mixing tank is placed at same level with bottom of circulation chute. Pump is placed in circulation chute in direction of drilling solution flow with possible feeding of drilling solution from receiving tank. Mixing blades are mounted horizontally in mixing tank. Receiving and mixing tanks are provided with draining valves in bottom portions.

EFFECT: higher safety.

1 dwg

Description

The invention relates to the field of regulation of technological parameters of drilling fluids and can be used in the construction of wells in the oil and gas industry.

A known installation (analogue - SU 1764343, 6 E 21/06, from 12.20.89,) [1] for the regeneration of the weighting of drilling fluids.

One of the disadvantages of the installation by analogy is that the normal efficiency of centrifuges is limited by the concentration of the solid phase in the drilling fluid in the range from 1 to 25% by weight [2]. While, in practice, in high-density drilling fluids, the solids content can reach even more than 50% (vol.) [3]. The performance of the centrifuge decreases as the consistency and solid content in the drilling fluid increases, which reduces the efficiency in controlling the flushing process and the safety of well drilling.

In an analogous installation, structural control of the drilling fluid parameters is not provided when it is fed to the centrifuge by the addition of process fluids (water or an aqueous solution of chemical reagents), followed by their mixing to a homogeneous composition.

Another disadvantage of the installation by analogy is the location of the working body of the mechanical stirrer - paddle mixer - directly under the sludge nozzle of the centrifuge. This constructively determines the working position of the paddle mixer in space at an angle of 45-60 ° to the horizontal.

For efficient mixing of the regenerated weighting agent with drilling fluid continuously moving along the circulation trough to a homogeneous mixture, a sufficiently powerful and high-speed mixer is required. The operation of such a mixer with the position of its paddle mixer in space as by analogy, in practice, leads to the release of drilling fluid with a weighting agent beyond the circulation trough. Attempts to cover this part of the circulation trough with a special, flexible apron do not give a positive result. The drilling fluid and the regenerated weighting agent ejected by the paddle mixer from the circulation chute adhere to the inside of the apron with a thick dense crust, making it difficult to unload the centrifuge and the weighting agent regeneration process, which, ultimately, does not allow for efficient regulation of the drilling fluid parameters and reduces drilling safety.

Another disadvantage of the installation by analogy is that the operational control of the process of flushing the well with special additives in the drilling fluid is most effectively carried out by introducing them into the drilling fluid directly in the stream along the circulation chute. Therefore, the receiving part of the pump must be connected to the circulation chute to ensure good reception, and the useful products of the drilling fluid processing - a deslimified light mud when it is cleaned and the weighting concentrate during its regeneration, returning to the circulation, must again be effectively mixed with the drilling fluid until it is completely averaging parameters. However, in a similar installation, the circulation chute is poorly adapted to interact with the pump and with the mixer. The height of the fluid flow in the gutter is small, variable over time and depends on many factors, including the operating mode of the mud pumps, cleaning mechanisms prior to the centrifuge, and the situation in the well. In practice, in a similar installation, the height of the liquid flow above the receiving unit of the pump is insufficient. This causes a swirling flow, air leaks, malfunctioning of the pump and centrifuge. The use of a flooded partition to solve this problem is not effective enough. The height of the flooded septum is limited by the height of the gutter and the danger of overflowing the solution through its edges.

The purpose of the invention is to increase the safety of drilling due to reliable stabilization of the design parameters of the drilling fluid by eliminating design flaws and expanding the functionality of the installation by analogy.

This goal is achieved by the fact that the installation is known by analogy, including a pump connected to the pipeline for supplying drilling mud, a centrifuge with inlet, drain and slurry nozzles, a loading funnel with a filter and a side channel, a circulation chute with a flooded baffle and a mixer equipped with a paddle mixer , is additionally equipped with two troughs flooded under the level of the bottom of the trough troughs, respectively, receiving for the pump and mixing for the mixer of the mixer. To facilitate cleaning of sediment, the troughs in the bottom are equipped with drainage valves.

In addition, in addition to the drilling fluid supply pipe, shut-off and control valves, a flow meter and a hydraulic mixer with a supply line of the process fluid connected to the pump of the supply of process fluid, also equipped with a flow meter and shut-off and control valves, are placed sequentially after the pump. Under the centrifuge, a vibratory gutter is mounted on an elastic suspension, having two mutually perpendicular working positions - along and across the flow of the solution, so that (depending on the operation performed) its beginning is always located under the centrifuge sludge nozzle, and the end (during weighting agent regeneration) above the gutter flooded mixing trough or above the sludge dump of the circulation system (with fine cleaning of the drilling fluid). Suspension of the vibratory gutter includes screw adjusting units that allow you to change the height and angle of inclination of the longitudinal axis of the vibratory gutter to the horizon. The oscillation generator mounted on the vibratory chute has an adjustable variable controlled mode of operation.

The use of a circulation chute flooded beneath the bottom level of the chute allows eliminating turbulence of the flow, air leaks, malfunctions of the pump and centrifuge during pump operation.

The use of a trough mixing trough submerged under the bottom of the trough allows the mixer to be placed vertically in it, and its paddle mixer, therefore, horizontally, lowering it below the liquid level below the bottom of the trough. This allows you to reliably prevent the discharge of drilling fluid beyond the gutter during operation of the mixer. At the same time, the use of a vibratory chute ensures the delivery of the regenerated weighting agent from the slurry nozzle from the centrifuge to the mixer of the mixer, which ensures its high-quality mixing with the solution. Equipping the installation with a pipeline for supplying the process fluid to the centrifuge allows optimizing the process, increasing the quality of drilling mud processing and the productivity of the installation.

Equipping pipelines at the inlet of the centrifuge with shut-off and control valves, flow meters and a hydraulic mixer will allow you to accurately, qualitatively and quantitatively normalize the flow of the original product to the centrifuge. The presence of a hydraulic mixer ensures the formation of a homogeneous mixture, which eliminates the violation of the balancing, runout and vibration of the centrifuge rotor, fraught with emergency situations.

The drawing shows a diagram of the installation device according to the invention.

The installation includes a centrifuge 1 with a loading funnel 2 at the inlet pipe, drain 3 and slurry 4 pipes, a pump 5, a pipe 6 for supplying drilling mud and the base of the centrifuge 26. A circulation chute 7 is located under the centrifuge. The circulation chute is equipped with a flooded partition 8 in front of which mixer trough buried below the level of the bottom of the circulation trough 10, a mixer 9 is vertically installed, equipped with a paddle mixer 18, mounted horizontally. The paddle mixer of the mixer is immersed in the trough mixing trough below the level of the drilling fluid below the bottom of the circulation trough. In the space under the centrifuge and above the circulation chute, an inclined vibratory chute 12 equipped with a vibrator 24 is mounted on the elastic suspension. The suspension of the inclined vibro chute 12 to the centrifuge base 26 has screw adjusting devices 25. Shutoff and adjusting valves 19, a flowmeter are installed sequentially on the pipe 6 for supplying drilling fluid 14 and a hydraulic mixer 15. A hydraulic fluid supply line 22 connected to a hydraulic fluid pump and also equipped with a lock is connected to the hydraulic mixer but-adjusting fittings 16 and flow meter 17.

Unlike the analogue side channel, the filter according to the invention (see drawing) with a similar arrangement and functions is transferred to the loading funnel, positions 11 and 13. In this case, channel 11 is intended only for emergency discharge of drilling fluid into the circulation chute in case of emergency. The function of the adjustable hole in the system for supplying drilling fluid to the centrifuge, as in the analogy to the proposed invention, is performed by shut-off and control valves 19.

Upstream of the drilling fluid relative to the centrifuge, the installation according to the invention is equipped with a groove receiving trough 21 submerged beneath the level of the bottom of the circulation chute (see drawing).

The installation according to the invention works as follows (see drawing).

The drilling fluid from the buried trough receiving trough 21 is pumped 5 through the pipeline for supplying the drilling fluid 6 to the feed funnel 2. At the same time, shut-off and control valves 19 and flow meter 14 are used to normalize its flow rate within the centrifuge performance with the corresponding operating mode. If necessary, at the same time as the drilling fluid along the line 22 of the supply of process fluid, with the help of shut-off and control valves 16 and a flow meter 17 through the mixer 15 in the centrifuge can be fed to the process fluid. The total supply (drilling fluid plus process fluid) is set taking into account the performance of the centrifuge depending on the mode and type of work (cleaning the mud from drill cuttings or regenerating the weighting agent).

In a centrifuge, the drilling fluid is divided into a centrate and wet sludge in the form of drill cuttings or weighting agent concentrate. The centrate on the drain pipe 3, depending on the operation, is returned to the circulation (cleaning) or dumped into the barn (regeneration).

During fine cleaning of the drilling fluid, the centrate — the drilling fluid freed from sludge — is returned to the trough mixing trough, buried below the level of the bottom of the circulation trough, where the centrate is averaged with the drilling fluid of the borehole circulation system under the influence of the paddle mixer 18 of the mixer 9. Sludge - wet sludge concentrate along an inclined vibratory chute 12, located under a centrifuge 1 perpendicular to the flow of drilling fluid in the circulation chute, dumped into the dump. As a result of the release of drilling fluid from most of the drill cuttings, the technological parameters of the drilling fluid are improved to comply with the regulations.

During the regeneration of the weighting agent of drilling fluids, a precipitate is formed from the slurry nozzle 4 of the centrifuge in the form of a wet concentrate of the weighting agent on the inclined vibratory groove 12. The length of the inclined vibratory groove provides the supply of wet concentrate of the weighting agent to the place of its mixing with the drilling fluid in the grooved buried mixing trough. The flooded baffle 8 together with the gutter mixing trough submerged beneath the level of the bottom of the circulation trough provide the formation of a sufficient volume of a slow-moving mud flow in the borehole circulation system, where the wet concentrate of the weighting agent has time to mix effectively with the drilling fluid installed horizontally paddle mixer 18 to a homogeneous state. As a result of the return of the reclaimed weighting agent to the drilling fluid and removal of light clay colloidal impurities from it into the barn, the technological parameters of the drilling fluid are improved to comply with the flushing regulations.

By optimizing the composition and increasing the processability of the initial sludge-containing drilling fluid before cleaning or regenerating a weighting agent in a centrifuge, increasing the efficiency and quality of mixing the centrate — de-sludge-containing mud and sludge — a regenerated weighting agent with drilling fluid in circulation, reliable improvement of the technological parameters of the drilling fluid to the requirements of the flushing procedure is ensured with increased drilling safety.

List of used literature:

1. A.A.Dobik, V.I. Mishchenko. Installation for the regeneration of the weighting of drilling fluids. FIPS. A.S. No. 17643443, 6 Е 21 В 21/06, dated 12/20/89.

2. V.M. Lukyanchenko, V.V. Taranets. Centrifuges. Directory. Moscow, “Chemistry”, 1988. ss. 179, 217.

3. S.A. Ryabokon. Weighting of drilling fluids and the technology of their application. Mosca, "Nedra", 1981. pp. 5, 40.

Claims (1)

Installation for fine cleaning and regeneration of the weighting agent of drilling fluids, including a pump connected to the pipeline for supplying drilling fluid, a centrifuge with inlet, drain and sludge nozzles, a loading funnel with a filter and a side channel, a circulation chute with a flooded baffle and a mixer equipped with a paddle mixer, characterized in that it is provided upstream of the drilling fluid from the centrifuge with a trough flooded under the level of the bottom of the circulation trough with a receiving trough, an inclined vibratory chute, mounted under a centrifuge above the circulation chute on an elastic suspension, placed sequentially on the pipeline for supplying drilling fluid with shut-off and control valves, a flow meter and a hydraulic mixer with a supply line of the process fluid connected to the pump for supplying the process fluid and also equipped with shut-off and control valves and a flow meter located in the zone of action of the paddle mixer of the mixer, a mixing trough flooded beneath the level of the bottom of the circulation trough, with that the circulation pump is located in the groove in the direction of flow of drilling fluid for supplying the drilling fluid from the feed trough, and paddle mounted horizontally in a mixing trough wherein the receiving and mixing trough at the bottom equipped with drain valves.