SU994011A1 - Electric cyclone - Google Patents

Description

The invention relates to the field of separation of dispersed particles from gases using electric and centrifugal forces and can be used to purify gases in cement, lime and kaolin production. Dust collectors are known in which the separation of dust particles occurs under the action of centrifugal and electric forces 1. An electrocyclone is known, comprising a housing with nozzles for supplying dusty gas and removing trapped dust, an ionizer with an electrostatic barrier grid and a grounded insert 2. A disadvantage of the known electrolyte is the low cleaning efficiency due to the entrainment of small and weakly charged dust particles with ascending gas. flow. The purpose of the invention is to increase the cleaning efficiency by coagulating the aerosol. The goal is achieved by the fact that in an electrocyclone containing a housing with nozzles for supplying dusty gas and removing trapped dust, an ionizer with an electrostatic barrier grid and a grounded insert, the electrostatic barrier grid is provided with corona electrodes, and the grounded insert surrounds the electrostatic barrier grid and is made as a free-flowing streamline gas flow spiral with a slope of the coils along the downward gas flow. The drawing shows schematically the proposed electrocyclone. The electrocyclone includes a housing 1 with a nozzle 2 for supplying dusty gas, a nozzle 3 for outputting the cleaned gas and an annular opening to remove trapped dust, a gas-reflecting cone 5 for redirecting the gas flow, a dust collector 6 and an ionizer 7 suspended by means of supporting insulators 8 and connected through the bushing insulator 9 with a high voltage source (not shown). An electrostat is fastened on the frame of the ionizer 7; the scratch barrier grid consisting of a hollow truncated cone 10 and corona electrodes 11; The grounded insert 12 is fixed on the pipe 3 to output the cleaned gas; it is made in the form of a spiral of metal wire with inclined turns along the descent gas flow. The angle of inclination of the spiral spiral vortex is close to the angle at which the descending gas flow moves in the electric cyclone body. "The helix diameter must be greater than the diameter of the nozzle to output the cleaned gas, which is the upper limit of the ascending gas flow (in the drawing, the outer limit of the ascending gas flow is indicated by arrows. The spiral can be multiple depending on the optimal distance between the turns. In order to create a high electric field at the electric field, the spiral is covered with a dielectric, for example The electrocyclone works as follows: The dusty gas stream through the tubes 2 for supplying the dusty gas enters the electrocyclone body 1 and twists in a downward spiral. When a high voltage is connected to the ionizer 7, a corona is formed that promotes the charging of dust particles. The action of the electric field and centrifugal forces of the charged dust particles approach the walls of the housing of the elec- trocyclone and the descending gas stream is carried away into the dust collector 6, h, and fall out of the stream. Part of the dust particles is captured by the ascending gas flow and moves to the inlet of the nozzle 3 to output the purge gas (the outer boundary of the ascending gas flow is shown by the lines). Pushing into a hollow truncated cone 1 d and falling into the field of operation of the corona electrodes 11, the dust particles, having received an additional charge of negative polarity, are redirected towards the walls of the housing 1 of the electro cyclone. Under the influence of the corona discharge between the corona electrode 11 and the grounded insert 12, as well as under the influence of the electric field, dust particles that have received an additional charge are deposited on the grounded insert 12. A small cross section of the conductor from which the spiral is made provides a high electrical intensity field (thickening of lines of force) and a high concentration of dust particles near its surface, which leads to a process of coagulation of dust particles. It is important that the dust particles are redirected upon exit and x under the action of an electric field from the ascending gas flow, since the dust particles move towards the gas flow for some time, which increases the probability of collision of large dust aggregates with small dust particles. Coming in contact with the grounded insert 12, the dust aggregates give up their charge and, under the influence of the aerodynamic forces of the downward gas flow, slides over its surface, collides with other aggregates and, once again, is recharged and re-precipitated on the grounded insert 12. that the reloading of particle aggregates takes place over a period of time significantly longer than the time of passage of the downward gas flow through the barrier grid, which allows for a greater degree of coagulation. For this, the slope angle of the turns of the helix of the grounded insert 12 is close to the direction of the downward gas flow velocity vector. Then, under the action of centrifugal forces of this flow, the particles are thrown to the walls of the electric cyclone body 1 (in FIG. 1 shown by the arrow). The enlarged dust aggregates rejected to the walls of the body 1, adhering to the main collected dust flow, are carried to the dust collector 6, the proposed electric cyclone clouds in comparison with the known electrocyclone, a higher degree of purification (98%) due to the fact that small dust particles of the ascending gas flow undergo an additional process of coagulation and expulsion od present gas

Claims (1)

Claim An electroclone containing a housing with nozzles for supplying dusty gas and removing trapped dust, an ionizer with an electrostatic barrier net and an earthed insert, characterized in that, in order to increase the cleaning efficiency by coagulation of aerosol, electrical engineering Order 698/4 Circulation 578 Subscription Branch of PPP Patent, Uzhhorod, ¹ , Projectnaya St. 994011 6, the trostatic barrier grid is provided with corona electrodes, and the grounded insert surrounds the electrostatic barrier grid and is made in the form of a spiral freely flowing around the gas stream with a slope of the turns along the downward gas stream.