SU931212A1 - Low temperatupe horisontal separator - Google Patents

Description

(54) LOW-TEMPERATURE HORIZONTAL SEPARATOR

I

The invention relates to a technique for separating a droplet as well as a condensing liquid from a gas stream and can be used in the gas industry to prepare a gas for transport.

The closest in technical essence and the achieved result to the proposed is a low-temperature horizontal separator, comprising a body made in the form of a pipe, a swirl chamber accommodated in it with a tangential nozzle gas inlet pipe, liquid outlet pipes installed in the pipe ends, and a device for separating separated gas. The gas enters the vortex chamber through the inlet nozzles, where it acquires Shashokoi rotational speed. The central part of the rotating flow is output from the camera through the diaphragm. The main part of the flow with heavy components passes through a perforated pipe, then through a gas turbine and drives a perforated pipe into rotation at a speed close to the speed of rotation of the gas. After the turbine, the hot gas stream is directed to the separator. The heavy components are precipitated in the housing and discharged through the GP nozzle.

However, the design of the device is very complicated due to the presence of a perforated tube and a turbine rotated on bearings at a speed close to the speed of rotation of the gas. This design is unreliable mainly due to the presence of bearings. In this case, only a small part of the feed stream (cold stream), bases, and the liquid-saturated part (hot stream) undergoes cooling and low-temperature separation, after exiting the device undergoes additional separation, and the separation process is carried out in addition

but installed separators at higher temperatures and lower pressures, which leads to the unreasonable use of the energy of the incoming stream and complicates the process of gas preparation for transport., i In addition, the allocated space before draining meets the gas flow, the output of the turbine, leads to the discharge of capel liquid with a hot gas stream.

The purpose of the invention is to simplify the design of the device and increase the degree of separation due to the rational use of energy, gas flow and increase of out-of-phase gas, which leads to higher quality of gas preparation for transport. This goal is achieved by the fact that the vortex chamber is installed in the center of the pipe and the separated gas outlet device is made in the form of two opposite nozzles installed in the vortex chamber at a distance of 0.5-1.0 times the diameter of these nozzles.

In addition, the outlet nozzles are made tangential.

Thus, both the simplification of the design of the device due to the absence of rotating elements, and the increase in the liquid phase output due to a more rational use of energy, as well as due to the fact that the drip drift is prevented, is achieved.

The drawing shows a low-temperature separator, a general view.

The separator consists of a housing I, a tangentially installed nozzle nozzle 2 of the inlet, a vortex chamber 3, a tangential nozzle 4 for the outlet of the liquid and two opposite nozzles 5 located coaxially with the body and sparsely with the axis of the gas inlet nozzle. In the 1st section, the cross sections of the pipes 5 are located at a distance from each other equal to 0.5-1.0 diameters of these pipes.

The device works as follows.

The gas through the pipe 2 that enters gentially into the vortex chamber 3,. where does the rotational movement. In the pre-thermal zone of the vortex chamber at low static temperatures arising from the rotation of gas at high speeds, under the action of prices

the throat forces dropping and condensed gas out of the gas are discharged into the peripheral zone of the vortex chamber (liquid accumulation zone) and through the tangential nozzles 4 for the benefit of the liquid are removed from the device, and the separated gas from the central zone of the vortex chamber enters the gas pipeline through nozzle 5.

The distance between the inlet sections of the nozzles 5, depending on the gas condition requirements for the seasons of the year, is 0.5-1.0 times the diameter of these nozzles. It is in these

limits, the gas dew point temperature is the lowest in moisture and hydrocarbons at the maximum device performance. -Big difference between final temperature

braking the cold gas flow and the dew point temperature once again confirms that the gas is separated in the proposed device at low static temperatures,

therefore, with more; rational use of gas energy.

The use of the proposed device for low-temperature separation will allow the separation of gas at temperatures 1015 ° C below the values obtained by the Joule-Thomson effect in known devices. At the same time, the dew point of the gas also decreases by 10–15 ° C and, accordingly, the quality of the separated gas and the amount of gas condensate released. In addition, the use of the present invention in field practice will significantly reduce the metal intensity of existing low-temperature gas separation facilities.

Claims (2)

1. A low-temperature and horizontal separator, comprising a body made in the form of a pipe, a vortex chamber placed in it with a tangential nozzle nozzle for introducing gas, liquid outlet nozzles installed at the pipe ends, and a device for separating gas from the outlet. By the fact that, in order to simplify the design and increase the degree of separation due to the rational use of the energy of the gas flow, the vortex chamber is installed in the center of the pipe and the output device of the separated gas is made in the form of two volezhaschih nozzles installed in the vortex chamber at a distance from one another equal to the diameter of these pipes 0.5-1.0) 2. A separator according to claim 1, characterized in that, for the purpose of the W Y // // // M S5 increase in liquid outlet 5 Sources of information taken into account in the examination I ( .1, USSR Copyright Certificate No. 573090, cl. B 01 D 45/00, 10 1971. W ////// UL