RU66413U1 - DISPERSANTER FOR REMOVING WATER CLUSTERS FROM GAS WELLS - Google Patents

Abstract

The utility model can be used in gas and gas condensate fields, in particular, in producing wells, the production of which contains a liquid phase.

The purpose of the utility model is to enable the removal of water accumulations from the well.

The goal is achieved in that the inner cavity of the dispersant is made in the form of two truncated cones interconnected by smaller bases with a cylindrical insert and hydraulically communicated with the cavity of the tubing through channels made in the dispersant body, while the dispersant body can be made of steel or material with low adhesive and high anticorrosive properties, for example from polytetrafluoroethylene

1 pp., 1 ill ..

Description

The utility model relates to the gas industry and can be used in gas and gas condensate fields, in particular, in production wells, the production of which contains a liquid phase.

In the initial period of development of gas and gas condensate fields, high well flow rates ensure the removal of the liquid phase in a drip-dispersed form. During further exploitation of the field due to a drop in reservoir pressure, the accumulation of the liquid phase at the bottom of the wells becomes a cause of complications in their work due to the phenomenon of self-jamming, which leads to a sharp decrease in the flow rate of the wells and even their complete shutdown.

In order to eliminate this phenomenon, it is necessary to use various methods and devices for transferring liquids into foam (aerosol) structures dispersed in gas, which will ensure the removal of water accumulations from gas wells.

The known "Device for the artificial preparation of gas-liquid flow structures" in oil and gas collection systems (ed. Certificate. No. 841660, B.I. No. 24, 1981), comprising a housing, a set of diaphragms and fittings for introducing liquid and gas, characterized in that the fluid inlet fitting is provided with a coaxially mounted working chamber, made in the form of a cylinder with holes located on its side surface in the middle part, and a plunger.

The disadvantage of this device is its relatively large dimensions, therefore it is applicable only in surface conditions and cannot be used in wells.

Closest to similar features to the claimed device is a "Dispersant", designed for crushing and mixing gas in liquids in oil and gas collection systems (ed. Certificate. No. 970039, B.I. No. 40, 1982). The device includes a cylindrical body with a set of diaphragms and a nozzle for supplying gas, characterized in that an expander is installed in front of the diaphragms. Such a device could be used in wells, but it

weaknesses make this almost impossible. It is that the dispersant is operating normally in a horizontal position; the design of the dispersant provides for a separate supply of liquid and gas, while in the wells the liquid and gas phases move together, in addition, the hydraulic losses are large in the dispersant.

The purpose of the utility model is to increase the efficiency of the device by ensuring the removal of fluid from gas wells and simplifying the design of the device.

This goal is achieved in that the inner cavity of the dispersant is made in the form of two truncated cones, interconnected by smaller bases with a cylindrical insert and hydraulically connected to the cavity of the tubing through channels made in the dispersant housing, while the dispersant housing can be made of steel or material with low adhesive and high anti-corrosion properties, for example polytetrafluoroethylene.

At the moment when the reservoir pressure drops, the gas phase does not ensure the removal of fluid from the well, which accumulates at the bottom and causes a sharp decrease in the flow rate of the well or leads to a complete shutdown of the well. In this case, a dispersant is installed in the well to remove fluid from the well below a fluid level of ~ 50.

In FIG. shows a general view of the device.

The device is a housing 1 made of two truncated cones 2 and 5, interconnected by smaller bases with a cylindrical insert 3 and hydraulically communicated with the cavity of the tubing through channels 4 made in the housing 1 of the dispersant.

The device operates as follows.

Initially, when a single gas phase moves, according to Bernoulli’s law, the speed in the cylindrical insert 3 will be higher, and the pressure P ₂ in it will be lower than the pressure P ₁ in front of the dispersant in its conical part 5. As a result of the presence of ΔP = P ₁ -P ₂ liquid 6 the annular layer through the channels 4 will be drawn into the cylindrical insert 3 and injected into the gas stream (atomizer effect) and then when leaving the conical part 2 of the housing 1 of the dispersant moves in the form of a mixture of liquid in gas.

Using the proposed utility model will allow

carry out the removal of fluid from the faces of gas wells.

Claims (1)

Dispersant for the removal of water accumulations from gas wells, consisting of a housing made in the form of a hollow cylinder, coaxially mounted in tubing, characterized in that the inner cavity of the dispersant is made in the form of two truncated cones, interconnected by smaller bases with a cylindrical insert and hydraulically communicated with the cavity of the tubing through channels made in the dispersant housing, while the dispersant housing can be made of steel or from a material with strong adhesive and high anticorrosive properties, for example from polytetrafluoroethylene.