SU665080A1 - Gas separation device at well pump intake - Google Patents

Description

valve 4 is connected respectively to the tubular damper 3 and the locking element 2, and the lower part of the suction valve housing is connected to the locking element of the additional inlet valve by means of a non-perforated receiving pipe 5 located along the suction valve. The tubular shock absorber 3, with its upper part, is connected to the manifold 6, which communicates the suction zone with the cavity of the pump cylinder (not shown). The tubular shock absorber is made in the form of two movable bushings with stops at the ends, between which sealing rings 7 are made of oil-resistant sealing material. A spring 8 is located between the rings 7. As a tubular shock absorber, a bellows can be used, calculated for the period of pressure created by the liquid column in the pump tubes and the annulus, or any other device. In the upper part of the degassing chamber is made gas outlet channel 9, equipped with a valve 10.

When the pump is being pumped, the suction clap 4 of the pump is closed and it is affected by the weight of the liquid column from the pump to the wellhead. Under the pressure of this liquid column, the damper spring is compressed, the suction valve 4 is in its lowest position, and the forcibly movable block element 2 of the additional intake valve connected to it, opens the lowest position, and allows fluid from the annulus to the degassing chamber 1. as the liquid and gas enter the degassing chamber under reduced pressure, gas begins to be released from the liquid, which, together with the free gas, floats to the upper part, chamber 1 and then under pressure immersing it is compressed and is forced through gazovynusknoy channel 9 with the valve 10 in the annulus.

With the pump intake, the pressure from the liquid column in the pump tubes is sensed by the plunger. Underpressure is created under the plunger, the spring 8 of the tubular shock absorber 3 expands, the valve body 4 occupies the uppermost position, in which the forcibly movable shut-off element 2 of the additional inlet valve closes the fluid from the annulus to the degassing chamber 1. Liquid from the degassing chamber through the perforated receiving pipe 5, the suction valve 4, the tubular shock absorber 3 and the nozzle 6 enters the pump cylinder. The liquid level in the degassing chamber decreases, and the pressure drops, which causes the rapid rise of increasing gas bubbles contained in the liquid, as well as the additional release of part of the dissolved gas from it. Thus, a substantially degassed liquid will be sucked into the pump cylinder. The volume of the degassing chamber should be no less than 2 times the volume of the downhole pump described by the plunger.

The described device can be used for deep well pumping gas wells at the well pump, mainly sucker-rod pump, especially in cases when an elevated pressure is maintained in the annulus, i.e., in fields equipped with a pressurized sealed system for collecting and transporting oil and gas, in which the annulus of the well is discharged.

Formula from gain

A device for gas separation at the reception of a well pump, mainly a sucker-rod pump, containing a degassing chamber, in the lower part of which there is an intake valve installed in the housing, and in the upper part - a gas outlet channel, and a perforated receiving pipe, characterized in that the free and dissolved gas contained in the produced liquid before it enters the pump, by creating a reduced pressure in the degassing chamber, the latter is equipped with an additional inlet valve a pan, with a forcibly movable locking element located in its lower part, and a tubular shock absorber, and the upper lower part of the suction valve housing are connected respectively to the tubular shock absorber and locking element, the lower part of the suction valve housing being connected to the locking element of the additional intake valve through a perforated the receiving pipe located under the suction valve, and the gas outlet channel is equipped with a valve.

Sources of information taken into account during the examination 1. USSR Author's Certificate No. 258981, cl. E 21B 39/00, 1966,

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