SU1153946A1 - Apparatus for separating and degassing liquids - Google Patents

Abstract

A MACHINE FOR SEPARATION AND DEGASING OF LIQUIDS, including a housing with nozzles for entering the mixture and draining heavy and light phases, a hydrocyclone, a receiving and settling chambers separated by a partition, characterized in the receiving chamber is equipped with a slag outlet pipe, the upper edge of the drain pipe of the heavy phase of the receiving chamber is located above the outlet of the hard phase of the hydrocyclone, and the upper edge of the drain pipe is light The hydrocyclone phase is installed above the upper edges of the partition and the spin nozzle of the heavy phase of the receiving chamber.

Description

/; / "

W, H

6 15

cl

oo with

O5

W / ri

The invention relates to devices for the separation and degassing of liquids and can be used in the petroleum, chemical and mining industries.

The purpose of the invention is to simplify the design.

The drawing shows the apparatus, a general view.

The device includes a hydrocyclone 1, located in the upper part of the receiving chamber 2, separated from the settling chamber 3 by a partition wall 4, in which the hydrocyclone and the drain branch pipe 6 of the heavy phase are fixed by means of the light phase discharge pipe 5. The receiving chamber 2 is connected to the settling chamber 3 via drain pipes 5 of the light phase and 6 heavy phases and has a slag outlet pipe 7 installed in the lower part of the receiving chamber. The hydrocyclone is equipped with a nozzle 8 inlet mixture. The settling chamber 3 has a compartment 9 for a separated light phase with a nozzle 10 outlet, a compartment 11 for a separated heavy phase with a nozzle 12 outlet and a gas outlet nozzle 13. The upper edge 14 of the nozzle 6 is located above the outlet of the hydrocyclone 15, and the upper edge of the nozzle 5 is located above the upper edge 16 of the partition and the upper edge 14 of the nozzle 6.

The device works as follows.

The gas-liquid mixture through the inlet pipe 8 is fed into the hydrocyclone 1, where under the action of centrifugal forces, it is divided into three phases: gaseous, light and heavy liquid phases. Gas through the top of the hydrocyclone enters the upper part of the apparatus and is withdrawn from it through the gas outlet pipe 13. The heavy liquid phase and the slag in the form of sediment flow down the inner wall of the hydrocyclone and through the annular opening 15 of the exit of the heavy phase from the hydrocyclone fall on the obliquely installed partition wall 4. The slag, along it, is withdrawn from the receiving chamber 2 through the corresponding nozzle 7, not contaminating the settling chamber.

The heavy liquid phase accumulates in the receiving chamber, creating a water seal, and enters the lower part of the settling chamber through the upper edge of the drain pipe of the 6th heavy phase.

Separating from the gas-liquid mixture, under the action of centrifugal forces, a light liquid phase, rising along the outer wall of the light branch drain pipe 5, which is located in the center of the hydrocyclone, flows through its upper edge and enters the upper part of the settling chamber 3.

The liquid phases previously separated in the hydrocyclone in this way do not move after it, since the light phase rises along an inclined partition into the upper part of the settling zone, and the heavy phase descends downward along the inclined partition 4.

The separated separated liquids are discharged from the settling chamber through the respective compartments 9 and I and the nozzles 10 and 12 of the outlet.

The upper edge of the light phase discharge pipe 5 in the hydrocyclone is located above the 5 overflow edge of the compartment 9 of the separated light phase and is higher than the upper edge of the drain pipe 6 of the heavy phase. This eliminates the possibility of the phases separated in the hydrocyclone entering the other compartments.

The invention makes it possible, in comparison with known devices, to ensure the operability of the apparatus at any phase ratio in the mixture. If, for example, the content of the heavy liquid phase in the mixture drops, then the existing water seal prevents the light phase from entering the drain of the 6th heavy phase.

Installing the upper edge of the drain pipe 5 of the light phase is higher than the upper edge of the drain pipe 6 of the heavy phase while reducing the content of the light phase in the mixture prevents the heavy phase from entering the drain pipe 5 of the light phase. The lag in the receiving chamber 2 is lightly transferred to the settling chamber 3 through the upper edge of the partition wall 4.

Claims (1)

DEVICE FOR SEPARATION AND DEGASATION OF LIQUIDS, including a housing with nozzles for the inlet of the mixture and the discharge of heavy and light phases, a hydrocyclone, a receiving and settling chamber separated by a partition, characterized in that, in order to simplify the design, the hydrocyclone is mounted in a separating partition installed obliquely, the receiving the chamber is equipped with a slag outlet pipe, the upper edge of the discharge pipe of the heavy phase of the receiving chamber is located above the outlet of the heavy phase of the hydrocyclone, and the upper edge of the discharge pipe of the light phase s hydrocyclone is installed above the upper edges of the partitions and the heavy phase discharge nozzle receiving chamber. b c 15