SU1681911A1 - Centrifugal separator - Google Patents

Abstract

The invention relates to devices for separating gas-oil mixtures and makes it possible to increase the separation efficiency. The separator includes a housing, a supply nozzle, a coil connected to it, a central nozzle for discharging a light phase, connected in the lower part with a branch pipe branched from the bottom, installed inside the coil turns, where Di is the diameter of the central nozzle; D2 - the sum of the diameters of the branches. 1 silt

Description

The invention relates to the oil industry, namely, devices for the separation of gas-oil mixtures, and can be used for the separation of associated gas from oil in systems for collecting and transporting oil and gas.

The aim of the invention is to increase the separation efficiency.

The drawing shows a separator, a general view, a section.

The separator contains a cylindrical body 1, a supply nozzle 2, a swirl coil 3, a central nozzle 4 for discharging a light phase (pure gas), connected in the lower part with a branch pipe downwards 5. There is an easy discharging line 6 for discharging phase (pure gas), and in its lower part - an otnaya lattice 7 and line 8 for removal of the heavy phase. The diameter of the central nozzle, where D2 - the sum of the diameters of the branches of the nozzle 5.

The separator works as follows.

Gas containing liquid and / or solid impurities flows through the feed

pipe 2 into the coil-swirler 3. The caught swirler gzz receives centrifugal acceleration due to twisting. Under the action of acceleration, at each turn of the helix, smaller and smaller particles of liquid are separated from the flow, pressing the pipes against the walls, coagulating and enlarging in size. By reducing the twisting radius, energy is lost in the moving stream. Energy loss is accompanied by heat loss and a decrease in temperature. In this case, the Joule-Thompson effect takes place - liquid vapors condense. An additional amount of liquid flowing out of the spiral enters the stream.

The gas separated from the flow, the exit from the helix, falls into the low pressure area, created by the fact that the diameter of the nozzle 4 is larger than the diameter of the outlet of the swirler 3. For this reason, the purified gas rushes upwards along the central nozzle 4. The central nozzle is made so that the gas it does not fall directly into line 6, but in order to prevent undesirable removal of liquid droplets by the flow of the rising gas.

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For the removal of fine particles of mechanical impurities, it reaches the line 6, the diameter of which is smaller than the diameter of the nozzle 4, for some time within the body.

An additional effect resulting from the ingress of gas and liquid into the low-pressure area is that, as a result of a decrease in the flow rate, the liquid droplets under their own weight rush along the branch pipe 5 down to the baffle grid 7. The grille is designed to separate liquid droplets from trapped gas bubbles.

The separation efficiency in the proposed separator is higher than in the known.

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Compiled by S. Gorinov:

Editor V. PetrashTekhred M.Morgentalcorrector M. Maximishenets

Order 3359 Circulation Subscription

VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab 4/5

Claims (1)

Claims of the invention: A centrifugal separator comprising a housing with an inlet pipe in the upper part, mounted in the housing and communicating with the inlet pipe of a conical coil with taps of a light and heavy phase, characterized by that. what. in order to increase the separation efficiency, the light phase retraction is made in the form of a central nozzle located inside the coil coils with a gap between the outlet nozzle and the upper part of the body, the retraction of the hard phase is connected to the central nozzle of the branch downwardly nozzle, where DI - diameter of the central port; D2 - the sum of the diameters of the branches. Gas