RU192211U1 - Degasser - Google Patents

Abstract

A degasser is proposed, comprising a housing made in the form of a cylindrical vertical chamber, an inlet pipe for gas-contaminated drilling fluid, a reflective device mounted inside the housing above the pipe, ribs mounted on the side surface of the cylindrical degasser body, and an outlet located in the upper part of the degasser. In this case, the housing further includes a conical cover mounted centrally above the inlet pipe, and perforated ribs are installed on the inclined conical surface of the cover around the perimeter. In addition, the reflective device is made in the form of a protruding cone, fixed in the center of the cone-shaped cover, above the inlet pipe. EFFECT: increased productivity and degassing efficiency. 3 s.p. f-ly, 6 ill.

Description

Atmospheric degasser is designed to clean the drilling fluid from gas when drilling oil and gas wells. The product is used as part of the circulation systems of drilling rigs.

Known degasser described in the patent of the Russian Federation No. 2630550 from 09/11/2017. In this degasser, drilling fluid is supplied under pressure to a manifold installed in a closed reservoir. After that, turn on the vacuum pump, and apply voltage from the ultrasonic generator to magnetostrictive transducers. Carbonated drilling fluid flows through the manifold and flows through the holes in the vertical part of the manifold onto the guide discs, and enters the disk plates continuously vibrating with ultrasonic frequency, mounted on waveguides of magnetostrictive transducers. Under the influence of acoustic vibrations of the ultrasonic range and gravitational forces, stable germinal gas bubbles, as well as gas bubbles on the surface of microparticles suspended in a liquid, begin to increase their size by absorbing dissolved gases from the liquid, rise to the surface of the liquid, stand out from it and concentrate in the upper parts of the reservoir, from where they are pumped out through the gas pipe with a vacuum pump. Degassed liquid under the influence of gravity is fed into the system. The disadvantage of this device is the design complexity and lack of reliability due to the rather rapid wear of the plate plate.

The closest technical solution is the patent of the Russian Federation No. 2276249 dated 05/10/2006. This patent discloses a degasser comprising an open-bottom housing housed in a tank for gas-free flushing fluid, an inlet for a gas-flushed flushing fluid, located in the middle of the housing, a reflective device mounted inside the housing above the pipe, and turbulent plate flow, fixed on the inner walls of the housing under the reflective device. The reflective device is made in the form of a cup-shaped part with a concave parabolic surface facing the free end of the specified pipe. A perforated conical diffuser is fixed on the outer surface of the nozzle. The disadvantage of this device is the low productivity and insufficient cleaning of the liquid from gas, due to the use of a bowl-shaped reflective device, from which the liquid enters a sufficiently narrow stream onto a perforated conical diffuser, which can not always provide a quick passage of liquid.

The claimed utility model is designed to solve the above disadvantages.

The technical result of the claimed utility model is to increase the productivity and efficiency of degassing.

The technical result is achieved by the fact that the degasser comprises a body made in the form of a cylindrical vertical chamber, an inlet pipe for a gas-contaminated drilling fluid, a reflective device mounted inside the body above the specified pipe, ribs mounted on the side surface of the cylindrical degasser body, and an outlet located in top of the degasser. In this case, the housing, made in the form of a cylindrical vertical chamber, further includes a conical cover mounted in the center above the inlet pipe, and perforated ribs are installed on the inclined conical surface of the cover around the perimeter. In addition, the reflective device is made in the form of a protruding cone, fixed in the center of the cone-shaped cover, above the inlet pipe.

The reflecting device in the form of a protruding cone is preferably made removable, with an angle at the apex of the cone, selected depending on the density of the solution and its saturation with gases.

Perforated ribs should preferably be installed evenly around the perimeter of the conical surface of the lid.

The ribs mounted on the side surface of the cylindrical body of the degasser can be made curved and are evenly spaced around the perimeter of the side cylindrical surface of the body.

The principle of operation of the proposed degasser

The atmospheric drilling degasser consists of a vertical slurry pump that pumps the drilling fluid, directing it through the pressure pipe through the pipe into the degasser body. The degasser body is made in the form of a cylindrical vertical chamber, in the central part of which the drilling fluid is sprayed radially onto the body walls with a reflecting device. The gas released as a result of impact and spraying escapes to the atmosphere or is sucked off by a low pressure blower. The degasser is mounted on supports at the required height depending on the depth of the capacity of the circulation system. The drive part and the degasser capacity are interconnected by means of a connector.

The proposed degasser is illustrated by figures 1-6:

figure 1 shows a General view of the proposed degasser,

figure 2 shows the reflecting device of the degasser,

3-4 show perforated ribs mounted on an inclined conical surface of the degasser cap,

figure 5-6 shows the ribs mounted on the side surface of the cylindrical body of the degasser.

In FIG. Figure 2 shows a reflective device - a diffuser of a fluid flow (item 1), which is conical with an angle α, which allows efficiently dispersing the injected solution onto the walls of the tank for better degassing of the solution. A replaceable nozzle (diffuser) with various angles α is selected depending on the density of the solution, as well as its parameters of gas saturation. The nozzle is a cone-shaped bowl made in a removable design.

Also in the degasser tank (FIG. 2, FIG. 3), special scattering ribs (pos. 2) made in a perforated design are installed on the inclined surface of the lid. Due to this, part of the solution after dispersion passes a longer path, and the other part passes through the perforation cells, thereby creating a drip effect, which contributes to more effective degassing.

After passing the scattering ribs, the solution rolls along the ribs (item 3) installed on the side surface of the cylindrical body of the degasser, which increases the area of liquid spill (Figure 4, figure 5). The ribs are mounted around the circumference at an angle.

Thus, due to the above-described design of the degasser, the productivity and efficiency of cleaning the drilling fluid are increased.

Claims (4)

1. Degassing device containing a housing made in the form of a cylindrical vertical chamber, an inlet pipe for gas-contaminated drilling fluid, a reflective device mounted inside the body above the specified pipe, ribs mounted on the side surface of the cylindrical degasser body, and an outlet located in the upper part of the degasser characterized in that the casing, made in the form of a cylindrical vertical chamber, further includes a conical cover mounted in the center above the inlet pat com, while on the inclined surface of the conical cap mounted on the perimeter of perforated fins, and the reflective device is a speaker cone, fastened centrally tapered cap over inlet. 2. The degasser according to claim 1, characterized in that the reflecting device in the form of a protruding cone is removable, with an angle at the apex of the cone, selected depending on the density of the solution and its saturation with gases. 3. The degasser according to claim 1, characterized in that the perforated ribs are installed evenly around the perimeter of the conical surface of the lid. 4. The degasser according to claim 1, characterized in that the ribs mounted on the side surface of the cylindrical body of the degasser are made curved and are evenly spaced around the perimeter of the side cylindrical surface of the housing.

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