SU1572680A1 - Separator - Google Patents

Abstract

The invention relates to the purification of a gas from a liquid suspended in it and allows for greater efficiency by reducing energy costs by eliminating the loss of compressed gas. The separator includes a housing 1 with nozzles 2 and 3 of the outlet for liquid and gas respectively, a nozzle 4 for introducing a vapor-liquid mixture and a separating element 6 placed in the cavity of the housing. The separator is equipped with a device 7, in the case of which a partition 8 is placed with the formation of chambers 9 and 10, and chamber 9 is under pressure above atmospheric. The device 7 is connected to the housing 1 of the separator through pipelines 12 and 14. 1 sludge.

Description

The invention relates to the field of gas purification from liquid suspended in it, in particular to separation devices, and can be used to separate liquid from a stream, gas in gas processing, oil refining, chemical and other industries, for example, in separators or columns for | rotation of fluid entrainment with gas.

The aim of the invention is to increase efficiency by reducing energy costs by eliminating the loss of compressed gas.

The drawing schematically shows a separator.

The separator comprises a housing 1 with nozzles 2, 3 of the drain of liquid and gas, respectively, and a nozzle 4 for introducing a vapor-liquid mixture. A separation element 6 is located in the cavity 5 of the separator housing 1. The separator is equipped with a device 7, in which a partition 8 is placed with the formation of 25 chambers 9 and 10. The chamber 9 of the device 7, which is under pressure above atmospheric, is equipped with a fluid inlet 11 connected by a pipe 12 to a liquid discharge pipe 2 and a gas outlet pipe 13, connected by a pipe 14 to a housing 1. A chamber 10 of the device 7 is connected to a consumer via a liquid discharge pipe 15.

The separator operates as follows.

The vapor-liquid flow under pressure is fed through the pipe 4 into the cavity 5 of the separator. This stream simultaneously enters the separation element 6 and through the pipe 2 of the fluid outlet, the pipe 12 for supplying liquid and the pipe 11 for entering the liquid into the chamber 9 of the device 7 and the pipe 13 for the gas outlet through the pipe 14 is returned to the cavity 5 of the separator. In the case of the device 7, a partition 8 is installed, made in the form of a microporous sieve, the pore sizes of which are determined by the formula where

- the average pore diameter of the filter sieve;

- surface tension of the separated liquid;

dr - the pressure difference between the cameras.

The partition 8 is located in a plane perpendicular to the plane in which the separation element 6 of the separator is located. At the beginning of the process, when the flow of the vapor-liquid mixture begins to flow into the chamber 9 of the device 7, it rises and spreads over the partition. In this case, the gas in the stream passes through the pores of the septum 8, not yet filled with liquid, and through the pipe 15 is directed to the consumer. As the flow passes along the septum 8, drops of liquid fill all its pores. Excess liquid drains under the action of gravity, fills the lower part of the chamber 9 and moistens a part of the surface of the filtering partition 8, where surface forces disappear in the absence of a free surface, and the liquid flows through it into the chamber 10 and then passes through the pipe 15 to the consumer. The gas in the stream from the chamber 9 can no longer pass through the partition 8, since the pores of the latter are filled with liquid, which is retained in them due to surface tension forces, and the gas enters from the chamber 9 through the pipe 13 through the pipe 14 into the separator cavity 5.

Thus, when the separator is equipped with the device 7, the separated liquid, as it accumulates in the lower part of the separator cavity 5, freely flows through the pipe 2, pipe 12, pipe 11 into the chamber 9 of the device 7, where it flows through the partition 8 into the chamber 10 and then through the pipe 15 enters the consumer, while eliminating the loss of compressed gas.

I

Compared with the prototype implementation of the invention will improve efficiency by reducing energy costs.

Claims (1)

Claim A separator comprising a housing, nozzles for introducing a vapor-liquid mixture and an outlet for liquid and gas, a separation element located in the housing, characterized in that, in order to increase efficiency by reducing energy costs by eliminating the loss of compressed gas, it is equipped with a device with nozzles for liquid inlet and gas outlet with a partition placed in it, dividing it into two chambers, one of which is under atmospheric pressure, while the partition is located in a plane perpendicular to the plane in which n the separation element, the liquid outlet pipe is connected by means of a pipe to the chamber fluid inlet port under pressure, the chamber gas outlet pipe is connected to the separator body cavity by a pipe, and the device is equipped with a liquid outlet pipe from the second chamber.