DE850599C - Process and device for cleaning electrodes in electrostatic precipitators - Google Patents

Description

Process and device for cleaning electrodes in electrostatic precipitators The invention relates to such electrostatic precipitators, which are part of the gas flow Forming parallel gas lanes arranged vertically in a row next to one another Precipitation electrodes are provided. The electrodes usually need to be from Be freed from the dust that has settled on their surface from time to time, provided it is a type of dust that does not fall off the electrodes by itself. The removal of dust is mostly done by shaking the electrodes, z. 1i. by knocking tools or by shouting or letting them strike against an abutment. There is of course the risk that the detached dust masses again in the Gas flow and affect the filter performance. One has this circumstance accounted for by having two or more electrostatic precipitator chambers in parallel switches, of which only one is subjected to and during the electrode cleaning process this time is taken from the gas flow. However, this arrangement is a consequence Doubling the equipment is expensive and takes up a lot of space, which does not is always available. As a result one is of the parallel connection to it passed over, the collecting electrodes of a row not at the same time, but to be cleaned off individually or in groups one after the other with the result that the vast majority of the Gas lanes of dust clouds remain free and the risk of re-contaminating gases that have already been purified to a minimum is restricted.

The method according to the invention now extends to this individual cleaning the collecting electrodes, which according to the invention is further improved by that the gas gasses, which are each subjected to the cleaning electrode of the series abut or are adjacent, are kept shut off from the gas flow. on In this way it is possible to remove any risk of dust from the gas that has already been cleaned keep away and thus increase the efficiency of the electrostatic precipitator to the maximum.

Consequences as usual with larger amounts of gas or higher dust content two or more groups of electrode fields or rows with parallel gas paths in the direction of the gas flow towards each other, the invention allows adaptation Various options are open to the respective conditions. So z. B. the Blocking of the gas lanes in question according to: the individual cleaning of the electrodes extends either to all or only to a part of the field groups in the latter case, switching from one field group to the next can be. Under certain circumstances it is sufficient to only use the last field group in the course of the gas flow or to subject series to the method of gas gas shut-off according to the invention.

The arrangement can be made so that when the gas lanes are shut off the high-voltage electrodes in it are de-energized in order to achieve that the dust detachment from the collecting electrodes without inhibition by electrostatic Pressure can go on.

The gas gas shut-off is advantageous with the individual cleaning of the electrodes mechanically coupled. For this purpose, the shut-off devices are included provided a control that is dependent on the drive of the electrode cleaning.

In the drawing, the invention is illustrated using an exemplary embodiment.

Figs. I and 2 are a longitudinal section and plan view of an electrostatic precipitator chamber with two groups of electrodes; Figures 3 and 4 show details on a larger scale.

The chamber i contains the collecting electrodes 2 arranged vertically in the direction of the gas flow in two groups, which are suspended off-center at 3 on the chamber housing and leave the parallel gas lanes 4 free. Bars 5 provided in the lower part hold the electrodes 2 in both groups or rows, usually in the vertical position shown in FIG. The spraying high-voltage electrodes 6 are accommodated in the gas lanes 4. Furthermore, the lanes 4 of the last row of electrodes in the gas direction contain shut-off flaps 7, which can be pivoted about the axis 8. Outside the chamber housing i is a continuous circumferential wrap <9, which is occupied by the thumb io (Fig. 3 and 4). These thumbs are offset from one another and attack the ledges 5, which are sealed to the outside, in such a way that at least one of the electrodes 2 of the last group or row is always rotated around its suspension point 3 and thus brought out of its normal position until the ledges 5 again can be released and the detected electrode, possibly with the help of a spring i_1, can swing back, striking against the strips 5 of the electrode 2 in front of it in the first row and thus triggering the vibration required to detach the dust accumulation.

Apart from the thumbs, the '' Felle 9 has eccentric disks i i occupied, which are used to control the butterfly valves 7 .. The eccentrics i l act with the drive linkage 12 of the rotary shaft 8 of the flaps in the @N'eise together, that if z. B. one of the electrodes 2, as shown in Fig. 3 and 4, in the cleaning is understood, - the linkage 12 against the action of a spring 13 scolded inwards and with it the flaps 7 of the henaclihart: ° n Gasgassen .1 keep closed. This fact is the shape and the circumferential course of the eccentric i i adjusted. After release by the I @, xzcnter it who <leti the flaps 7 through the relaxing spring 13 is pushed back into the open position.

Claims (4)

PATE NTANSPfii CIIE: i. Method for cleaning electrodes in electrostatic precipitators with collecting electrodes arranged vertically in a row next to one another, forming parallel gas paths in the course of the gas flow. 13. be freed by shaking from (lein dust build-up, characterized in that the gas lanes, «-elche of the Elel; 2. The method according to claim i for two or more successive in the gas direction Groups of electrode fields, characterized in that the blocking of the gas lanes, alternatively, if necessary, on a part of the field groups or on a group, is preferably limited to the last one in the course of the gas flow. 3. Procedure according to claim i, characterized in that when the gas gases are shut off, the The high-voltage electrodes located there are de-energized. 4. Device for the method according to claim i, characterized in that the shut-off devices (7) intended for the gas lanes (4) are provided with a controller i (1 I, 12) dependent on the drive (9, io) of the electrode cleaning system.