SU912224A1 - Dust separator - Google Patents

Description

The invention relates to the separation of dispersed particles from gases and can be used in the construction of building materials in the metallurgical and other sectors of the national economy.

A two-stage separator is known, containing a primary separation chamber with an inlet branch pipe located in its upper part, a secondary separation chamber located under the primary separation chamber. A conical paddle swirler is located along the axis of the primary separation chamber CU.

However, this device does not have a sufficiently high degree of separation.

A dust separator is also known, including a housing with an inlet nozzle and a tangential swirler, divided by a transverse partition with an axial hole on the primary and secondary separation killer tubes installed in the primary separation chamber and placed on the periphery of the chamber, and a flow swirler mounted in the partition wall mounted coaxial in the secondary separation chamber

separation and discharge pipes, between which is formed annular branch channel 1:21.

A disadvantage of the known device is the high hydraulic resistance associated with the design of introducing gas into the primary separation chamber, which causes an increase in energy consumption.

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The purpose of the invention is to reduce energy consumption by creating favorable hydrodynamic conditions.

The goal is achieved by the fact that in a dust separator containing 15 a housing with an inlet nozzle divided by a transverse partition with an axial opening into the primary and secondary separation chambers installed in the primary separation chamber, a louvered grille located at the periphery of the chamber and a flow swirler fixed in the Hole the partitions installed in the secondary separation chamber are coaxially separated and the outlet branch pipes, between which the annular outlet channel is formed, the primary separation chamber is provided with a spiral noy partition forming with the tambour reshet30 Coy tapered along the gas channel.

and the inlet nozzle is located between the wall of the housing and the spiral partition across the chamber of the primary separation chamber tangentially.

S Supplying the primary separation chamber with a spiral partition, a channel narrowing along the gas path with the louvered grille, ensures a uniform increase in the velocity of the gas stream being cleaned from the entrance to the chamber to the exit from it and creates the conditions for maintaining the smallest value of flow resistance.

The location of the inlet pipe between the housing wall and the spiral partition along the entire length of the primary separation chamber makes it possible to separate the dust in the primary separation chamber tangentially in less than one turn, which reduces energy consumption.

In addition, the design of dust separators provides a constant direction of movement of the gas flow, which also reduces the hydraulic resistance, and consequently, energy consumption.

1 shows a dust separator longitudinal section; figure 2 - section aa in fig.if if fig.Z - section bb on figl.

The dust separator comprises a housing 1 with a pipe 2 for injecting dust and a pipe 3 for discharging the cleaned gas, a pipe 4 for discharging dust. Inside the housing 1 there is a transverse partition 5 with a bore hole b.

The housing 1 is divided by a partition 5 into primary and secondary separation chambers. In the primary separation chamber there is a louvered grille 7 installed around the periphery of the chamber and a swirler 8 flow, fixed in the opening 6 of the partition 5, In addition, the primary separation chamber is provided with a spiral partition 9 forming with a louver grille 7, channel 10 narrowing along the gas flow. jflo the entire length of the primary separation chamber between the wall of the housing 1 and the spiral partition 9 arrange the tangential inlet 2.

In the secondary separation chamber, the separation pipe 11 and the outlet pipe 3 are installed coaxially, forming an annular branch duct 12.

The housing 1 is also equipped with a dust collecting bin 13.

Dust separator works as follows.

The dust-laden gas enters the housing 1 through a tangentially installed nozzle 2. The passage through the narrowing channel 10 formed by the wall of the housing 1 is a spiral partition 9

and louvre 7, the gas flow acquires a rotational motion. At the same time, large particles of prly under the action of centrifugal forces are thrown to the outer wall of the dust separator and, falling on the louvered grill 7, pass through its gaps into the dust collecting bin 13.

Partially dedusted gas flow, swirled in housing 1, but lost part of the kinetic energy to the separation of large dust particles, enters the central part of housing 1 where the swirler 8 is installed. Passage through the swirler B the gas flow is additionally twisted through the axial hole 6 of the transverse partition 5 enters the separation pipe 11. Since the radius of curvature of the separation pipe 11 is smaller than the radius of the spiral partition 9, it is possible to separate small particles of dust from the flow are water through an annular bypass duct 12 into the dust collection hopper 13.

The gas, purified from the large and fine dust fraction, through the pipe 3 comes out.

Thus, a two-stage gas cleaning takes place in the dust separator, moreover, due to the creation of favorable hydrodynamic conditions with a significant reduction in energy consumption.

Forltula inventions

Dust separator, comprising a housing with an inlet nozzle, divided by a transverse partition with an axial opening into the primary and secondary separation chambers, a louvered grille mounted peripherally in the primary separation chamber. chambers, and a flow swirler, fixed in the partition wall, coaxially separating and outflow pipes installed in the secondary separation chamber, between which an annular outlet channel is formed, characterized in that, in order to reduce energy consumption by creating favorable hydrodynamic conditions, the primary separation chamber is provided with a spiral a partition forming a channel narrowing along the gas with a louvered grille, and an inlet branch pipe located between the wall of the housing and the spiral partition along the entire length of the chambers Primers of primary separation .tangentially.

Sources. Information taken into account in the examination

1. US patent number 3372532, class, 55-394, 1968,

2. USSR author's certificate number 584894, cl. H 04 C 3/00, 1976.

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Claims (2)

SUMMARY OF THE INVENTION A dust separator comprising a housing with an inlet nozzle, separated by a transverse baffle with an axial hole, into primary and secondary separation chambers, a louvre grill installed in the primary separation chamber, located at the periphery. chambers, and a flow swirl mounted in the baffle hole, installed in the secondary separation chamber, coaxial separation and outlet pipes, between which an annular discharge channel is formed, characterized in that, in order to reduce energy consumption by creating favorable hydrodynamic conditions, the primary separation chamber is equipped with a spiral a partition that forms a channel tapering along the gas with a louvre grille, and an inlet pipe is located between the wall of the housing and the spiral partition along the entire length of the chamber primary separation .tangentially. Sources of information taken into account during the examination 1. US patent No. 3372532, CL. 55-394, 1968. 2. Copyright certificate of the USSR ”584894, cl. H 04 C 3/00, 1976. S-δ