NO125461B - - Google Patents

Description

Precipitation electrode for electrostatic precipitator.

The present invention relates to a precipitation electrode which is intended for electrofilters with horizontal gas flow and precipitation electrodes in the form of a number of parallel, vertical and mainly flat plates with the gas flow. With electrofilters of this type, the aim is to prevent dust deposited on the electrodes and falling from them being carried along by the gas flow. This problem has previously been attempted to be solved by supplying the deposition electrodes with traps of various kinds. The invention relates to a new and improved design of the precipitation electrodes which enables a more efficient diversion and collection of precipitated dust. The object of the invention is distinguished by the fact that each plate is made with several vertical pockets arranged in the direction of the gas flow, which are formed by two adjacent and facing different sides, mainly angular (V)-shaped deflections of the plate. The bends are carried out appropriately so that their two legs form a different angle with the plane of the plate and so that nearby bends turn their equal legs towards the gas flow. According to an advantageous embodiment, the deposition electrode is made of a number of elements, each of which has two pockets of the type mentioned above. The elements can then be designed with a pocket designed at each side edge of the element, i.e. the electrode's joints lie between two nearby deflections.

The invention will be explained with reference to the drawing, where fig. 1 shows a horizontal section of an electrofilter and fig. 2 in detail a section of an advantageous embodiment of a deposition electrode.

In fig. 1 denotes 3 the casing for an electrofilter and 2 respectively 7 the inlet and outlet cone for the gas supplied at 1 and withdrawn at 8 which is to be cleaned in the electrofilter and whose flow direction is indicated by the drawn arrows. A number of emission electrodes arranged in parallel rows is denoted by 4 and a number of deposition electrodes placed between them by 5. These are shaped like vertical and mainly flat plates parallel to the gas flow. According to the invention, these plates 5 are made with pockets 6 arranged in the direction of the gas flow, which are formed by two adjacent and directed to different sides, essentially angular (V)-shaped deflections of the plate. Each deposition electrode can consist of a single larger plate provided with several such pockets arranged in pairs, or it can also be composed of a number of elements 5a, 5b etc., each of which has two pockets. According to an appropriate embodiment, each individual electrode element is designed with a pocket at each side edge of the element, as shown in fig. 2, so that the electrode's joints 12 come to lie between two adjacent pockets. These pockets are advantageously designed as shown in fig. 2, as the two legs 10 and 11 of the deflections form a different angle with the plane of the plate 9 and so that nearby deflections face their equal legs — in the case shown denoted by 10 — towards the gas flow.

Claims (4)

1. Precipitation electrode for electrofilter with horizontal gas flow and precipita- ning surfaces in the form of a number of parallel to the gas flow, vertical and mainly planar, simple plates (5) with vertical dust collection channels (6) arranged in the direction of the gas flow, characterized in that the dust collection channels are formed by two lying next to each other and to different sides turned, mainly angular (V-) shaped deflections (10, 11) of the electrode plate. 2. Precipitation electrode according to claim 1, characterized in that the two legs of the deflections form different angles to the plane of the plate and that nearby deflections turn their equal legs towards the gas flow. 3. Precipitation electrode according to claims 1 and 2, characterized in that it is made of a number of elements, each of which has two dust collection channels. 4. Precipitation electrode according to claim 3, characterized in that each element is designed with a dust collection chute formed at each side edge of the element, i.e. that the joints of the electrode are located between two adjacent deflections.