SU1036346A1 - Electric filter - Google Patents

Description

The invention relates to the purification of gases from dust and can be used in the mining, metallurgical and energy industries. An electrostatic precipitator is known, consisting of a housing divided into chambers by a louvre grille. Crown cells with needle-like corona and noncorrelated Cl electrodes are located in the chambers. The disadvantages of the electrostatic precipitator are its cumbersome and ineffectiveness due to the fact that to mechanically clean the collecting (non-coronating) electrode mechanically, an additional device with a driving motor is required, which reduces its efficiency and increases cost, and the installation of cells without shear , and also possible secondary ash dust. The purpose of the invention is to improve dust collection efficiency. This goal is achieved by the fact that the corona-shaped cells in the housing of the displacements are stepwise and shifted relative to each other in the vertical by a value of one and a half - two interelectrode distances, and horizontally on YsL-9 where S c is the resultant path traveled by external flow and electr by the wind; h is the interelectrode distance; L is the magnitude of the shift along the horizon, and non-corona electrodes are provided with rotary cleaning devices made in the form of shifted one relative to the other by 120 brushes fixed by means of a holder on the side of the body. At the same time, the needles on the corona electrodes and louvre are mounted at an angle tJ-SO relative to the axis of the body. Figure 1 schematically shows an electrostatic precipitator; figure 2 - section aa in figure 1; on fig.Z - cleansing device. The device includes a housing 1, in the lower part of which is located; a bunker 2 with a grill 3, corona needle 4 and noncorrelated grid 5 electrodes combined in corona-discharge cells 6. Above non-corona electrodes 5 with holders 7 fixed to the walls of housing 1, cleaning devices 8 for removing were rotatably mounted dust. The continuous rotation of the cleaning devices 8 is carried out by the electric wind and the external gas flow when applying a voltage of 15-20 kV to the corona discharge cells 6. The electrostatic filter works as follows. The dusty gas flow into the cavity of the housing 1 and the passage through the upper corona discharge cell 6 (with respect to the bunker 2) under the action of an electric field that is not in the direction of the bunker 2, is electric - the wind directed in the same direction, and the swirling flow from the rotation of the cleaning devices 8, is charged, coagulates and moves to the downstream corona-like cell. Here, the charged and coagulated particles of the upper layer are mixed with the still uncharged second layer of the gas stream. The mixing of charged and uncharged flows and the capture of large uncharged small particles by large charged particles occur. Thus, the aerosols are even more enlarged on the way to the tank; ru 2. In addition, as in the upper corona-discharge cell 6, the charge and the secondary charge are already performed here, as well. the same coagulation of particles. As a result, the gas flow cleaning process is carried out up to the bunker 2. Cleaning devices 8, due to the impact of the total flow consisting of electric wind and gas flow on them, rotate and carry out cleaning of non-corona electrodes 5 and, in addition, rotating, create vortex streams that promote intensive coagulation of gas particles into large aerospace particles. The inclination of the corona needles significantly reduces the aerodynamic resistance to the gas flow, and | also prevent the accumulation of a layer of dust on the corona needles. In the electrostatic precipitator, the shift relative to each other horizontally and vertically of the corona-discharge cells is set at an angle to the axis of the corona needle and, louvre grille, installed; Rotating the cleaning devices over non-corona electrodes ensures efficient charging, mixing of the flow, coagulation and transportation of dust into the bunker, which increases the efficiency of air purification, eliminates electrically operated devices for cleaning the collecting 1-corona electrodes from dust.

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Claims (2)

1. The electrostatic precipitator comprising a housing louvre, koronnorazryadnye cell i'nekoroniruyuschimi needle corona electrode, characterized in that, in order to improve dust collection efficiency, in the case .kbrrnnorazryadnye cells are staggered with a shift vertically SHZHZHZHZHZH $ ^x fflmuumuumiL -shppgpshddip '^ shtttttlpvppp. niiiiiiiiiiinrmp Ym? I I ..... ι, ΊΜ · - horizontally L-Ys ² _n0 -9i, ² , where S _nB ~ is the resultant path traveled by electric. wind and external flow; B - interelectrode distance; Li is the horizontal shift value, and the non-corroding electrodes are equipped with rotary cleaning devices made in the form of brushes 120 ° shifted relative to each other, fixed by means of a holder on the side side of the housing. 2. The electrostatic precipitator according to claim 1, wherein the needles on the> {pitting electrode and the louvre grill are installed at an angle of 45-50 °. SU „„ 1036346. ΊΓΛ WWWWW SHPSHTGPLTT! TsTGShPSHTSHPTP. J7 -------- Figure 1 1 10363 * 46 2