RU124182U1 - LABORATORY INSTALLATION OF DUST COLLECTION - Google Patents

Abstract

Dust collection laboratory installation, including a sequentially connected gas duct, a dust collector with counter swirling flows, an axial outlet pipe of the purified gas, an exhaust duct and an exhaust fan with an outlet to the atmosphere of the purified gas, characterized in that the exhaust duct is connected to a tangential straightener containing a cylindrical duct with a lower inlet for a swirling stream of purified gas, with a top cover, a round gate connected to the handle of its movement, and the output rectangular a second nozzle vanes for adjusting the flow section of purified gas.

Description

A useful model relates to the technique of separating dispersed dust particles from gases, namely, laboratory units for studying dust collection processes and improving the design of dust collectors. The utility model can be used in various industries - chemical, food, woodworking, production of building materials and other industries.

A known dust collecting unit comprising a supply gas duct connected in series, a dust collector with two counter-swirling streams of dusty gas and an axial outlet pipe of purified gas, a discharge duct and exhaust fan with the outlet of the purified gas to the atmosphere (see the description of the invention to the USSR copyright certificate No. 1526765, IPC VO1D 45/12, publication 07.12.1989).

A disadvantage of the known installation is the presence of a standard vented outlet of purified gas, in which the minimum radius of rounding is three diameters of the duct. This increases the dimensions of the dust collecting equipment and makes it difficult to install it in production rooms, and also increases the aerodynamic resistance of the dust collector.

The objective of the claimed utility model is to provide the possibility of laboratory studies in order to reduce the size of the dust collector and reduce its aerodynamic drag.

The problem is solved in that the laboratory dust collection unit, including a sequentially connected gas duct, a dust collector with counter swirling flows, an axial outlet nozzle of the purified gas, an exhaust duct and an exhaust fan with an outlet to the atmosphere of the purified gas, characterized in that the exhaust duct is connected to a tangential spinner, containing a cylindrical duct with a lower inlet for a swirling stream of purified gas with a top cover, a round gate connected to the handle e tangential movement and an output rectangular tube with vanes for adjusting the flow section of purified gas, it allows straightening due exiting the dust collector swirling flow to reduce its drag. The reduction in the size of the dust collecting plant is carried out due to the selection of the sizes of the tangential spinner according to the lowest values of the aerodynamic characteristics by moving the gates. The essence of the utility model is illustrated by drawings, where:

- figure 1 shows the installation of dust collection, General view;

- figure 2 - tangential straightener, General view.

The laboratory dust collection unit contains a supply gas duct 1 connected in series, a dust collector 2 with two counter-swirling flows of dusty gas and an axial outlet pipe 3 of cleaned gas, a tangential straightener 4, an exhaust duct 5 with a transition element 6, an exhaust fan 7 with a flexible insert 8, output 9 cleaned gas to the atmosphere.

The dust collector 2 comprises a dust collector 10, lower and upper tangential nozzles 11 and 12 for introducing dusty gas.

The tangential unwinder 4 comprises a cylindrical duct 13 with a lower inlet 14 for introducing and unwinding a swirling stream of purified gas leaving the outlet pipe 3 of the dust collector 2, with a top cover 15, a round gate 16 connected to the handle 17 for its movement and to the outlet rectangular pipe 18 s gate 19 and 20.

Position 21 marks the fixation points of the gates 19 and 20 when moving them. Position 22 marks the point of measurement of the aerodynamic characteristics of the cleaned stream.

Laboratory installation of dust collection is as follows.

Dusty air enters the dust collector 2 through the supply duct 1 in two streams through the lower 11 and upper 12 tangential nozzles. The swirling streams of dusty air move towards each other, and in the area where the streams meet, dust is separated. The purified gas enters the outlet pipe 3, and the dust released through the conical element 10 into the dust collector.

From the axial outlet pipe 3, the swirling flow enters the tangential unwinder 4, namely, the cylindrical duct 13 through the lower inlet 14. From the cylindrical duct 13, the air enters the rectangular outlet 18. The swirling air flow passing through the tangential unwinder 4 changes the direction of movement and unwinds, straightens due to the tangential component of the flow velocity head.

The round gate 16 through the handle 17 and the gate 19 and 20 connected by the partition 23, the height of the cylindrical part of the duct 13 and the rectangular pipe 18 is changed to select the most optimal aerodynamic mode of operation of the laboratory setup and, accordingly, determine the size of the tangential spinner for the designed dust collector.

The purified gas from the tangential spinner 4 through the transition element 6, the gas duct 5, the flexible insert 8 enters the inlet of the exhaust fan 7 and is released into the atmosphere through the outlet 9.

The claimed utility model allows for laboratory tests to select the dimensions of the tangential spinner, which allows to reduce the dimensions of the dust collecting unit in height, since the size of the tangential spinner is limited to (1.05-1.1) D (where D is the diameter of the standard ventilation outlet) and reduce the aerodynamic dust collector resistance.

Reduced aerodynamic drag is achieved by straightening the swirling air stream leaving the dust collector due to the tangential component of the flow velocity head.

The decrease in resistance coefficients for cyclone dust collectors of 14.0 ... 14.6% and for VZP apparatuses of 17.2 ... 23.6% was determined experimentally, with various aerodynamic operating modes of dust collectors.

Claims (1)

Dust collection laboratory installation, including a sequentially connected gas duct, a dust collector with counter swirling flows, an axial outlet pipe of the purified gas, an exhaust duct and an exhaust fan with an outlet to the atmosphere of the purified gas, characterized in that the exhaust duct is connected to a tangential straightener containing a cylindrical duct with a lower inlet for a swirling stream of purified gas, with a top cover, a round gate connected to the handle of its movement, and the output rectangular a second nozzle vanes for adjusting the flow section of purified gas.

Images