SU1023148A1 - Method for pumping liquid by pumping plant - Google Patents

Description

The invention relates to R hydro-engineering and can be used in the construction of pumping units pumping a water-oil mixture with free gas or other similar fluids.

There is a known method of pumping liquid using a pump unit; it includes the sequential suction of the pumped liquid in the tank and its displacement into the discharge pipe 10 by the action of the working fluid 1.

However, when this method is implemented, high cyclic loads occur in the pumping unit, which are distributed over the diaphragm separating the pumped liquid and the working fluid, which reduces the plant's failure rate.

The closest to the proposed technical essence and achievable result is a method of pumping liquid by a pump installation, including sequential suction of the pumped liquid in the tank and its displacement into the pressure pipe by affecting the working fluid on the buffer fluid separating the pumped and working fluid 2

However, the design of a pumping installation, implemented by this method, is complicated. In addition, when pumping a water-oil mixture with free gas, it is not possible to provide a sufficiently high pressure in the pressure pipe.35

The purpose of the invention is to simplify the installation design and pressurize the pressure pipe when using a water-oil mixture with free gas as a pumped liquid.

This goal is achieved by the fact that according to the method of pumping liquid by a pumping unit, which includes sequential suction of the pumped liquid in the tank and its displacement into the piping pipe through the action of the working fluid on the buffer fluid separating the fluid being pumped and the working fluid, a highly viscous working fluid emulsion in oil, and an inverse emulsion stabilizer are introduced into the working fluid.

The drawing shows schematically a pumping unit for pumping a liquid, which implements the proposed method.

The 6th Rng unit for pumping fluid contains tanks 1 and 2 connected to suction and discharge pipes 3 and 4, respectively.

Suction valves 5 65 are installed on each of the pipelines 3 and 4

and b and - discharge valves 7 and 8. A continuous-action pump 9, for example, of a centrifugal type, through a switchgear, including shut-off bodies 10-13, installed on the inlet and discharge lines x and 14 and 15 of the pump, respectively, communicates with tanks 1 and 2, One of the containers, for example, container 2, is equipped with sensors 16 and 17, respectively, of the extreme upper and lower positions associated with the governing body (not shown). A branch 18 is connected to the injection line 15 to feed the installation with a high viscosity emulsion and a stabilizer.

The lower part of each of the containers 1 and 2 is filled with working fluid, the upper part is pumped, and between them there is a layer of buffer liquid separating them, which is a highly viscous emulsion of working fluid in oil.

The method of pumping liquid by a pump unit is carried out as follows.

Sequential suction of the pumped liquid in the tank 1 and 2 and its displacement into the pressure pipe 4 is effected by the action of the working fluid on the buffer fluid separating the pumped and working fluid. When used as a pumped liquid, it is a water-free mixture with a free gas — a highly viscous emulsion of the working fluid, a liquid in oil is used as a buffer liquid, and an inverse emulsion stabilizer is introduced into the working liquid. As such a stabilizer can be used, for example, a weakly concentrated mud.

When the shut-off organs 10 and 13 are open and the shut-off organs C and 12 are closed, the working fluid is sucked from the tank 1 and is pumped under pressure into the tank 2. At this time, the pressure-free water oil ns1 mixture with free gas is sucked through the open valve 5 From tank 2, this mixture is forced out under pressure in the pressure pipe 4 through valve 8. Valves 6 and 7 are closed at the same time. When the level of the working fluid in the tank 2 reaches the upper position sensor 16, the control unit (not shown, switches the closures 10–13 and valves 7–8 to the opposite position. At the same time, the working fluid is pumped into the tank 1 and is displaced from it by the pumped fluid). the liquid in the pressure pipe 4, and the tank 2 at this time is filled with a new portion of the pumped liquid. The level of the working fluid in the tank 2 is reduced to

sensor 17 of the lower position, after which there is a repetition of the entire cycle of the pump unit. The stabilizer is introduced into the working fluid through a tap 18.

The density of the buffer liquid is intermediate between the working and pumped liquid, therefore it is good for one to hold between them. Due to the high viscosity and structural-mechanical properties of the buffer fluid, the mechanical impurities are kept, removed from the pumped liquid, and the possibility of creating a high discharge distance is possible. The stabilizer adsorbing to the interface of the interface provides a higher resistance to the emulsin.

The proposed improvements greatly simplify the installation design and provide an increase in pressure in the pressure pipe.

Claims (1)

METHOD FOR PUMPING LIQUID BY A PUMPING UNIT, Including -. which sequentially sucks the pumped liquid in the tank and displaces it into the pressure pipe by exposing the buffer liquid to the buffer liquid, I divide A. Sh. Syrt - the pumped and working liquid, characterized in that, in order to simplify the design of the installation and increase the pressure in the pressure head the pipeline when using a water-oil mixture with free gas as a pumped liquid, a highly viscous emulsion of a working fluid in oil is used as a buffer fluid, and injected into the working fluid with abilizator inverse emulsion. to> © ° о ® ® о h® o _g .. 11erekaiVagnaya (V L - liquid vvva ^. buffer R8881 liquid Rye liquid "