RU2054529C1 - Device for separation of multicomponent flow into parts - Google Patents

Abstract

FIELD: oil producing industry. SUBSTANCE: distributor of multicomponent flow is made in form of mixing chamber with vanes, screen and cone. Intake pipeline is located symmetrically relative to mixing chamber, and discharge pipelines are located symmetrically relative to intake pipeline. EFFECT: provision of separation of multicomponent flow into representing parts and measurement of products of high-production wells by means of small-size plant. 2 dwg

Description

The invention relates to the oil industry and can be used in a system for collecting and preparing oil, gas and water in the fields,
The problem of representative separation into parts of a multicomponent stream (oil, gas, water) of oil production arises when measuring the production of a well and when several technological devices (separators, settlers, etc.) are connected to the well production stream in parallel;
A device is known (A.S. N 1506100 class E 21 V 47/10, 1989), which divides the stream into multiple jets. The main element of this device is a disk having through holes, which is installed across the fluid flow in the pipeline.

 Such a device does not provide for dividing a multicomponent stream into representative parts, since there is no forced mixing of the stream to homogenize it before separation, equal conditions for the liquid to enter each hole (the holes in the center of the pipe and its wall have different hydrodynamic conditions) in the downward flow, the existing gas in the stream does not participate in the separation together with the liquid.

 A known system for distributing fluid and gas flows through separation apparatuses [1] In this case, a pipeline with branches along the length is used as a distributor for the selection of liquid and gas separately. This device also does not provide sufficient mixing of the stream before distribution and the equality of the conditions for the entrance of the stream to the bends for each part of the stream.

 The aim of the invention is to ensure the distribution of a multicomponent stream into representative parts.

 The goal is achieved by the fact that the known device is equipped with a small mixing chamber made with a spherical bottom symmetrically with respect to the vertical axis. In the mixing chamber, the multicomponent stream is mixed due to the energy of the downward stream, the guide apparatus of the mixing chamber provides a symmetric flow movement in the number of outlet pipelines, the incoming gas plugs are destroyed by a fine mesh network and uniformly diverted by the cone to the outlets of the outlet flow pipelines located on the upper part of the mixing chamber symmetrically to equal distances from the chamber wall and the inlet of the supply pipe and have a vertical part to provide upward flow ka at the initial section of the discharge pipelines to ensure equal conditions for the flow inlet.

 The proposed design of the switchgear provides for the mixing of the multicomponent flow and its distribution into representative parts.

 Figure 1.2 presents a schematic illustration of a device.

 The device includes a flow inlet pipe 1, a mixing chamber 2, a guide apparatus 3, a fine mesh 4, a cone 5, outlet parts of the flow pipelines 6.

 The device provides a separation into representative parts of a multicomponent stream as follows.

 Well production enters through the pipe 1 into the mixing chamber 2, the guide device 3 is divided into parts, the stream of flow hits the wall of the chamber, there are strong turbulence of the stream and good mixing of the components of the stream. In the event of a gas plug, it hits the mesh 4 and breaks into small bubbles and is evenly diverted to the branch pipes of the discharge piping by a cone 5. The ascending vertical section of the discharge pipelines allows you to divert all free gas with a fluid stream without delay. The symmetrical arrangement of the outlet pipes and the presence of a guide apparatus provide equal conditions for the entry of a multicomponent stream into all pipelines that discharge the stream.

 The use of such a device makes it possible to measure the production of multi-debit wells with a small-sized measuring installation, i.e. in all possible ranges of well production, it is possible to measure well production by a measuring unit of one standard size. In this case, there is no need to develop and manufacture different sizes of plants.

Claims (1)

 DEVICE FOR DIVIDING A MULTI-COMPONENT FLOW INTO PARTS, comprising a supply pipe, a distributor and discharge pipes having vertical ascending portions, the inlets of which are arranged symmetrically with respect to the supply pipe in the distributor, characterized in that it is provided with a guide apparatus, a fine mesh net and a cone, wherein the distributor is made in the form of a mixing chamber, in which a guide apparatus is installed opposite the end of the supply pipe, and the fine mesh and cone are installed oval in the mixing chamber above the end of the supply pipe, and the cone is mounted coaxially with the end of the supply pipe.

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