RU2060834C1 - Device cleaning gas from imputiries - Google Patents

Abstract

FIELD: aviation, heat power industry, oil and gas production, chemical industry, metallurgy. SUBSTANCE: device has cylindrical case with screw vortex generator mounted on its axis. Vortex generator has central duct, its continuous screw wall is made hollow and communicates with central duct of vortex generator with the aid of holes made over helical line in rod of vortex generator. EFFECT: improved cleaning efficiency. 1 dwg

Description

 The invention relates to techniques for cleaning gases from dust and other impurities before being discharged into the atmosphere and can be used to clean gas emissions from boiler houses, as well as in the chemical, oil and gas, aviation and metallurgical industries.

 A device for cleaning a gas stream [1] containing precipitation surfaces located along a helical line.

 A device for cleaning gases [2] containing a housing with an outer and inner cylinder, an inlet and an outlet pipe for gas, and multi-helical spiral walls located between the outer and inner cylinders are known.

 The disadvantage of these devices is the low degree of purification of the emitted gases, the inability to control the temperature regime of the cleaning process, the difficulty in manufacturing.

 The closest in technical essence is a device for cleaning gases from impurities [3] containing a cylindrical body with an inlet pipe, a discharge pipe with holes and a screw swirl with a central channel.

 The disadvantage of this device is the inability to control the temperature of the cleaning process. Gas is released into the atmosphere at high temperatures, thereby a large amount of heat is uselessly lost.

 Therefore, the task is to ensure regulation of the temperature regime of the gas purification process over the entire installation height, to ensure the utilization of not only impurities, but also heat, and to reduce the negative impact of emissions on the environment.

 The problem is solved in that the device for cleaning gases from impurities, containing a cylindrical body, an inlet pipe, a discharge pipe and a screw swirl with a central channel, is additionally equipped with a heat exchanger located concentrically in the discharge pipe. The continuous screw wall of the swirl is hollow and communicated with the heat exchanger. The cavity of the housing is in communication with the central channel of the swirler with openings made along a helical line in the swirl rod.

 Due to the circulation of the coolant (liquid or gas) in the heat exchanger and the helical wall, the necessary temperature regime of the separation process, the cooling of the gases emitted into the atmosphere, and the beneficial use of the heat received by the coolant when cooling the gas are provided.

 The drawing schematically shows the proposed device.

 It contains a cylindrical housing 1 with an inlet pipe 2 for supplying contaminated gas and a screw swirl 3 with a central channel 4. The screw swirl 3 is installed along the axis of the housing 1, and the continuous screw wall of the swirl has a cavity 5 connected in the upper part to a heat exchanger 6 installed inside the outlet nozzle 7. In the swirl rod 3, holes 8 are made along a helical line 8. A hopper 9 with a chute equipped with a shutter 10 is attached to the lower part of the housing 1.

 The device operates as follows.

 The crude gas is supplied under pressure through the inlet pipe 2 to the cavity of the housing 1, where it is twisted by a screw swirl 3, and the resulting centrifugal force rejects impurities on the inner surface of the housing 1 and then, under the influence of the gas flow and its own weight, they enter the hopper 9. In the upper parts of the outlet pipe 7 and the central channel 4 create a vacuum with fans (not shown) operating on the suction. Therefore, part of the gas with lighter fractions of impurities through the holes 8 enters the Central channel 4 and is fed to the aftertreatment. The purified gas is discharged into the atmosphere through the outlet pipe 7 or can be supplied to the production lines for further use.

 Due to the circulation of the coolant in the heat exchanger 6 and the cavity 5 of the helical wall of the swirler 3, the gas is cooled, the heat is utilized. In necessary cases, it is possible to provide gas heating by supplying a hot coolant to the device. Thus, the device provides the necessary temperature conditions for the gas treatment process.

Claims (1)

 A device for gas purification from impurities, comprising a cylindrical body with an inlet pipe, a discharge pipe, a screw swirl with a central channel mounted along the axis of the body, characterized in that the continuous screw wall of the swirl is hollow and communicated with a heat exchanger located in the discharge pipe, the cavity of the body communicated with the central channel of the swirler with holes made along a helical line in the swirl rod.

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