SU982753A1 - Dust trap for wet cleaning of high temperature gases - Google Patents

Description

The invention relates to the wet cleaning of high-temperature gases from dust, and their cooling before being released into the atmosphere, and can be used to clean and cool gases from smelting furnaces of foundries, as well as thermal aggregates emitting high-temperature aerosols. A spark arrestor for wet gas cleaning is known, consisting of a cylindrical body, a conical reflector installed above the inlet nozzle, and a irrigation system with nozzles 1. The closest in technical essence and the achieved result to the invention is a dust collector for wet gas cleaning, including a body, a supply connecting duct, reflecting umbrella, irrigation nozzles 2. The disadvantage of such wet dust collectors is the low degree of purification of gas emissions from small and medium dust fractions due to inefficient use of the volume of the dust collector. Circulating zones formed on the path of the cleaned gases, negatively affect the cleaning efficiency and increase the aerodynamic resistance of the dust collector. {; In addition, waste heat is not used. -, The purpose of the invention is to increase the degree of gas purification and heat recovery. The goal is achieved by the fact that a dust collector for wet cleaning of high-temperature gases, including a housing, supply and discharge ducts, a reflecting umbrella, irrigation nozzles, is equipped with a hollow waste-disposal unit mounted on a reflecting umbrella with internal baffles forming spiral channels, the internal surface of the utilizer is made as a surface rotation with the formation between it and the inlet duct of a channel of a cross section decreasing along the gas, the outer surface of the umbrella is made in the form of a hemisphere, the inner one in the form iperbolicheskogo cone and injector mounted between supply conductive gas flue and an umbrella, parasol and the housing. The drawing shows a dust collector, section. A reflecting umbrella 2 with a utilizer is attached to the inlet duct 1. By fasteners 3, the fairing is connected to the body of the dust separator 4, which is a cylinder connected at the top with a straight line, and at the bottom with a reverse truncated cone. Irrigation of flue gases along the entire path of their passage through the dust collector is carried out by nozzles 5, which are installed on collectors 6-8.

At the exit of the dust collector, two-blinds 9 are installed. A drain nipple 10 is provided for draining the contaminated irrigating liquid.

Dust collector works in the following way.

Dust-laden high-temperature gases leave the inlet duct 1. Having bumped against the cover of the fairing, the gases move down the annular channel formed by the walls of the duct and the heat exchanger. The height of the fairing is selected taking into account the cooling of gases after they pass collectors 6 and 7 to 150 ° C. Turning at the bottom of the dust collector, the gases move upward through the annular channel formed by the walls of the fairing and dust collector body. The special shape of the fairing ensures a constant volumetric velocity of dusty gases, which eliminates the formation of circulation zones and increases the degree of gas cleaning from dust. All along the way, the gases are irrigated with water and dust particles, come in contact with water droplets and with a water film on the walls of the dust collector, are trapped, stick together in the sides and are washed off. Before being emitted into the atmosphere, the gas to be purified to eliminate the kapleounos passes through double-blinds.

In the dust collector, the circulation zones in the annular channels, i.e., in the places where the main dust collection takes place, make fuller use of the working volume of the dust collector and reduces its hydrodynamic resistance. The constant volumetric flow rate of the gas stream lengthens the lifetime of the dust collector, reducing the possibility of warping of the walls of the dust collector and the fairing. Water is used efficiently for irrigation. The advantages of the proposed dust collector also include its relatively small height due to the deep fitting of the dust collector case onto the pipe (gas outlet) and using the external surface of the pipe (gas outlet) as an additional area of contact of the gas to be cleaned with a film of irrigating liquid. Dust collector can be used both independently and as a 1st stage of cleaning dusty gases.

The use of the proposed dust collector will increase the efficiency of gas cleaning with an initial temperature of 400 to 1100 ° C and initial dust content up to 20 g / m. The hydraulic resistance of the dust collector does not exceed 15–20 kgf / cm, which makes it possible to use it without pull rods, for example, to install it directly on the cupola tube.

Claims (2)

1. Lugovskiy, S.I., -Andrianov, I.S. Purification of gases, leaving from cupola furnaces and electric steel-smelting furnaces. M., “Mechanical Engineering, 1972, p. 45. 2. USSR author's certificate number 355970, cl. On 01 D 47/06, 1972.