RU47997U1 - SUBMERSIBLE TURBOERGAS-LIFT PUMP UNIT - Google Patents

Abstract

Usage: various industries, in particular in the extraction of oil-containing products. Tasks: creation of a multifunctional submersible turboergaslift installation, in which two dissimilar liquids are simultaneously lifted with their preliminary mixing regardless of the depth of the liquid collectors due to the use of an additional submersible pump. The essence of the utility model: the utility model is aimed at solving the problem of creating a multifunctional submersible turboergas lift pump unit capable of not only transporting a homogeneous liquid to a relatively high height, but also simultaneously lifting two liquids of different physical characteristics, and if necessary, mixing them evenly regardless depths of fluid reservoirs.

Description

The utility model relates to the field of hydraulic engineering, more specifically to the design of turbopump and ergazlift plants, and can be used in various industries, in particular in the extraction of oil-containing products.

The prior art is as follows.

A known turbo-gas lift pump containing a gas turbine with inlet and outlet nozzles, a pump with an input device and a discharge pipe for transported liquid, a gas lift mixing chamber in communication with a pump discharge pipe and with a source of energetically active gas (see floor. RF model No. 9027, MKI 6 F 04 F 1/18, 1999.).

A disadvantage of the known turbogas lift pump is that when using a submersible pump it is not possible, with a relatively shallow depth of the tanks with transported liquid, to obtain in the mixing chamber of the gas lift sufficient support for the efficient operation of gas lift er, especially when it is necessary to transport a gas-liquid mixture consisting of two dissimilar liquids and energetically active gas.

Signs of the prototype, coinciding with the essential features of the claimed utility model: gas turbine with inlet and outlet nozzles; a pump with an input device and a discharge pipe for transported fluid; a gas lift mixing chamber in communication with a pump discharge pipe and with a source of energetically active gas.

The reason that impedes the receipt of the required technical result in the prototype is. the use of a single submersible pump running on a gas lift, so this design does not provide efficient operation of the installation as a whole at

small in depth reservoirs of the transported liquid, especially if there is a need for transportation with preliminary mixing of two dissimilar liquids.

The essence of the utility model.

The utility model is aimed at solving the problem of creating a multifunctional submersible turboergaslift pump installation, capable of not only transporting a homogeneous liquid to a relatively high height, but also simultaneously lifting two liquids of different physical characteristics, if necessary, with their uniform mixing regardless of the depth of the liquid reservoirs.

The technical result that can be obtained by implementing the utility model is to create a multifunctional essentially and highly economical submersible turboergaslift pump unit capable of transporting two dissimilar liquids in one gas lift elevator.

The utility model is characterized by the following essential features.

Limiting signs: gas turbine with inlet and outlet nozzles; bearing assembly with a shaft; pump with supply and discharge nozzles; gas lift in communication with the turbine outlet pipe and pump discharge pipe.

Distinctive features: an additional submersible pump, the discharge pipe of which is in communication with the mixing chamber of the gas lift, and the inlet device is in communication with an additional fluid reservoir, which differs in physical characteristics from the transported fluid from the main reservoir.

A causal relationship between the totality

The essential features of the claimed utility model and the technical result achieved are that in two submersible and independent pumps driven by a gas turbine completely dissimilar liquids can be transported that are mixed with energetically active gas from the turbine in the gas lift mixing chamber.

The claimed technical solution is illustrated in the figure, which schematically shows a schematic diagram of a submersible turboergas lift pump installation using independent submersible pumps transporting two dissimilar liquids.

Submersible turboergas lift pump installation contains: main pump 1 with inlet 2 and pressure head 3 nozzles; turbine 4 with input 5 and output 6 nozzles for supplying and removing energetically active gas; bearing assembly with shaft 7; additional pump 8 with inlet 9 and pressure head 10 nozzles; ergazlift with a lifting pipe 11 and a mixing chamber 12, which is equipped with pipes 13 and 14 for supplying transported liquids from the pressure pipe 3 of the main pump 1 and pressure pipe 10 of the additional pump 8, as well as the pipe 15 for supplying energetically active gas exhausted in the turbine 4.

Submersible turboergas lift pump installation operates as follows.

Energetically active gas with a flow rate of G _G comes from the main pipeline through the inlet pipe 5 to the flow part of the turbine 4 and, giving part of the energy to the working bodies of the turbine 4, enters the pipe 15 and then into the mixing chamber 12. The mechanical energy of rotation of the turbine 4 through the shaft 7 transmitted working bodies of the main pump 1 and the additional pump 8. As a result of the vacuum generated by liquid pump 1 and a flow rate of 8 g _w ^'from the main tank and the flow rate g ^_w' of

additional tank enter the pressure nozzles 3 and 10, and then through the nozzles 13 and 14 into the mixing chamber 12, where when interacting with an energetically active gas with a flow rate of G _G after turbine 4, a gas-liquid mixture with a flow rate of G _cm = G _G + G _f ^'' + G _W ^' . Under the influence of the gas energy remaining after the turbine, the energy of high-pressure liquids from the primary and secondary pumps, as well as the Archimedean (lifting) forces, the gas-liquid mixture with a flow rate of G _cm through the lift pipe 11 of the gas lift is raised to the calculated height, and then removed to a special receiver to collect the mixture of liquids, and gaseous inclusions are separated naturally or are forced to separate.

Claims (2)

1. Submersible turboergas lift pump installation comprising a gas turbine equipped with inlet and outlet nozzles, the first of which is connected to a source of energetically active gas, a bearing assembly with a shaft, a pump equipped with an inlet device and a discharge port for the transported fluid, in which the gas lift mixing chamber is located, communicated with the outlet pipe of the turbine, characterized in that an additional pump is located on the shaft of the submersible gas turbine, the discharge pipe of which is communicated from the mixer hydrochloric chamber gas lift, and the inlet pipe communicates with a further liquid reservoir, physical characteristics different from the main pump of the transported liquid. 2. Submersible turboergas lift pump installation according to claim 1, characterized in that the additional reservoir of the transported fluid is in communication with the main reservoir.