RU114273U1 - GAS DISTRIBUTION DEVICE - Google Patents

Abstract

A gas distribution device installed inside the body of the apparatus, which includes a gas inlet pipe made in the form of a pipe, which is perpendicularly connected to the collector, characterized in that the collector is made in the form of a pipe plugged from both sides, perpendicularly connected to two gas distribution pipes made in steps with increase in diameter, provided with openings made in the form of continuous slots located in the upper part of the pipe at an angle of 90 ° to each other, and plugged from the end sides.

Description

The utility model relates to gas distributors used in disk-type column apparatuses for conducting mass transfer processes in a gas-liquid system, such as rectification, absorption, and is intended for uniform distribution of gas over the cross section of the mass transfer apparatus, and can be used in the gas processing, petrochemical, and oil refining industries.

Known gas distribution device designed to distribute gas flow over the cross section of the apparatus, and can be used in mass transfer, separation and filtration apparatus, made in the form of a cylinder with a perforated base and mounted inside the apparatus body eccentrically relative to its axis against the gas inlet with a gap to the apparatus body and the perforated base is located below the gas inlet pipe, a cylindrical shell is installed on the base, which is connected to the housing a town located above the gas inlet pipe, while the shell is made with channels having a variable cross-section for the gas passage, decreasing to the axis of the gas inlet pipe.

Preferential execution:

the shell is made in a drop-shaped shape with an orientation of a sharp edge forming toward the gas inlet pipe and placed eccentrically relative to the axis of the apparatus; the shell at the gas inlet pipe is divided by a longitudinal partition, the ends of which are passed through opposite channels and flanged towards the gas inlet pipe (see RU Patent 1643030 A1, IPC B01D 3/20, 1991).

The disadvantages of this device are the insufficient degree of separation of fine flows, the complexity and cumbersome design of the device, the complexity of installation.

The closest in technical essence is a gas distribution device designed for uniform distribution of gas over the cross section of the apparatus, and can be used in packed column apparatus and in gas separators, which is equipped with a perforated base, the device is installed inside the apparatus body against the gas inlet pipe with a gap to the body, and the perforated base is located below the gas inlet pipe, the gas distribution device is made in the form of a triangular prism, on the side which blocks set of vertical corrugated sheets, the corrugations are arranged at an angle to the horizontal and the corrugations in adjacent sheets cross block formed (see. RU Patent 2329849, IPC B01D 3/00, B01D 3 // 32 (2006.01), 2006).

The disadvantages of the device are the uneven distribution of the gas flow over the cross section of the apparatus and the insufficient degree of separation of finely dispersed flows at high values of the velocity factor in the inlet of the gas mixture, which is associated with the design features of the device and the secondary dispersion and entrainment of the separated dispersed particles.

The technical task of the proposed utility model is the uniform distribution of the gas flow over the cross section of the apparatus, reducing the overall dimensions and material consumption of the device, simplifying its design and installation.

The technical result is to increase the reliability of the apparatus due to the uniform distribution of gas and reduce erosion-corrosion wear of the wall of the apparatus in the gas injection zone.

It is achieved by the fact that the gas distribution device is installed in the apparatus body and includes a gas inlet pipe made in the form of a pipe, perpendicularly connected to a manifold made in the form of a pipe plugged on both sides, perpendicularly connected to two gas distribution pipes, made in steps with increasing diameter, equipped with holes made in the form of continuous slots at an angle to the horizon, and muffled from the end sides.

The solution to the technical problem allows to improve the uniformity of the distribution of the gas phase over the cross section of the apparatus, to reduce erosion and corrosion wear of the inner wall of the apparatus in the gas inlet zone.

A gas distribution device is installed in the apparatus body and contains a gas inlet pipe 1 made in the form of a pipe, perpendicularly connected to a manifold 2, made in the form of a pipe plugged on both sides, perpendicularly connected to two identical gas distribution pipes, each of which consists of a pipe 3, the diameter of the cross section of which is 324 mm, of two holes 4 made in the form of continuous slots located in the upper part of the pipe at an angle of 90 ° to each other, of a concentric transition 5 with a diameter of 324 mm n diameter 356 mm, pipe 6 whose cross-sectional diameter is 356 mm, two holes 7 made in the form of continuous slots located at the top of the pipe at an angle of 90 ° to each other, concentric transition 8 from diameter 356 mm to diameter 408 mm, pipes 9 the cross-sectional diameter of which is 408 mm, of two openings 10 made in the form of continuous slots located in the upper part of the pipe at an angle of 90 ° to each other, of a plug 11 made round and arranged transversely with respect to the gas flow, the diameter of which is 408 mm.

The proposed gas distribution device operates as follows.

The gas phase through the gas inlet pipe 1 is fed into the manifold 2, made in the form of a pipe, muffled from both sides. The gas flow passes through two gas distribution pipes 3, made stepwise with increasing diameter, equipped with holes 4, 7, 10, made in the form of continuous slots at an angle to the horizontal. Due to the stepped design of gas distribution pipes, the speed of gas jets leaving the slots decreases, reducing the impact of gas on the inner wall of the apparatus and improving the uniformity of gas distribution over the cross section of the apparatus.

The device is easily mounted from components, which allows them to be fed into the device through the hatch and installed in new and existing column devices.

Thus, the claimed design of the gas distribution device allows to increase the reliability of the apparatus by balancing the gas velocities during distribution, to reduce the erosion-corrosion wear of the apparatus wall in the gas inlet zone, to reduce the overall dimensions of the device and the material consumption, to simplify its design and installation in new and existing column devices.

Claims (1)

A gas distribution device installed inside the apparatus body, including a gas inlet pipe made in the form of a pipe, perpendicularly connected to the manifold, characterized in that the manifold is made in the form of a pipe plugged on both sides, perpendicularly connected to two gas distribution pipes, made in steps with an increase in diameter, provided with holes made in the form of continuous slots located in the upper part of the pipe at an angle of 90 ° to each other, and muffled from the end sides s.