SU370978A1 - SEPARATOR - Google Patents

Description

one

This invention relates to gas purification and is intended to trap droplet particles from gas and liquid streams in various industries.

Known separator, comprising a cylindrical housing with tangential inlet and outlet nozzles and exhaust pipe.

However, in a known separator, with increasing flow rate at the inlet, the entrainment of the liquid channel with the separated gas increases, which reduces the efficiency of the separation of the gas-liquid flow.

In order to increase the efficiency of gas-liquid flow separation, a tube is installed coaxially with the tangential inlet nozzle, the input end of which is located inside the tangential inlet and the output end outside the separator housing. In addition, the bore diameter of the tube is 0.3-0.4 times the diameter of the tangential inlet of the separator.

FIG. 1 shows a separator, a general view; pas figs. 2 shows a section along / 1-A in FIG. one.

The separator consists of a cylindrical body}, tangential inlet 2, exhaust pipe, tapgenyyygo outlet pipe 4 and tube 5.

The separator operates as follows. A gas-liquid note is fed through this to the genial input tank at a speed exceeding 15–20 sec / sec at which the rod flow regime is established. stepped pipe.

The speed of a moving liquid film is many times lower than the speed of movement of a gas drake, which in turn is characterized by unevenness, consisting in the fact that near the main flow the gas velocity is much higher than that of the walls, where an intense inhibitory effect of the liquid film appears. Not all liquid hpc of the core flow mode moves in the form of a film: a certain amount of liquid in the form of a cannel moves in a gas core, however, the weight concentration of droplets decreases sharply from the periphery to the center of the flow.

The rod mode of the flow of the displaced flow, which always takes place in the tangential inlet branch pipe of the separator at flow speeds of 30 m / s and above, when the gas flow from the central tube of the gas flow separates, the amount of gas entering the separator body is significantly reduced, and l liquid and

its speed (relative to the centrifugal separation process) will remain virtually unchanged. In this case, a reliable separation of the liquid from the remaining gas in the casing of the senator can be ensured, and in connection with a decrease in the gas content, conditions are created to prevent intensive foaming during the separation process of foaming-1x solutions.

The loss of liquid with separated gas in the separator’s construction can, if necessary, be completely eliminated with the help of an additional device in the form of a sleeve connecting the outlet end of the tube to the container from which the liquid is supplied.

Subject invention

Claims (2)

1. Separator for separating gas-liquid flows, including cylindrical a housing with tangential inlet and outlet nozzles and an exhaust pipe, characterized in that, in order to increase the efficiency of gas-liquid flow separation, a pipe is installed in the tangential inlet pipe, the inlet end of which is located inside the tangential inlet pipe, and the outlet end is outside the separator housing. 2. A separator according to claim I, characterized in that the diameter of the passage section of the tube is 0.3-0.4 times the diameter of the tangential inlet of the separator. one Xij Pi / g / A-A