DE346235C - Non-spraying electrode for electric gas cleaners - Google Patents

Description

Non-spraying electrode for electric gas cleaners. Subject of Invention is a design of the non-spraying electrode (precipitation electrode), especially for those electric gas cleaners that use direct current or intermittent Direct current can be operated. Tests have shown that the use of a semiconductor offers significant advantages. All bodies come into question as semiconductors, which ones are neither good conductors nor non-conductors, e.g. B. wood, paper, marble, concrete. First, it makes any spark discharge impossible because it is in the definition of the semiconductor is that only a certain amount of current per second passes through each Square centimeter cross-section, secondly, the deposited dust adheres more firmly on the electrode, because the semiconductor makes the charge transfer and repulsion more difficult, which is important with some gases. The semiconductor -may naturally only in one relatively thin layer covering the conductive electrode in order to be uniform To achieve electricity penetration of the gas. One would make the whole electrode from semiconductors produce what works with electrostatic, i.e. static electricity Separation is common in grain milling, so in the case of electrical gas cleaning, In contrast, the electricity used is flowing, the whole current only at the Lead point leave the electrode and a pitiful effect of the separator be the necessary consequence.

Fig. I shows one possible implementation. i is the wire spraying; 2 is the, for example, cylindrical divorce mantle, which in a known manner can consist of metal, and 3 the effective layer consisting of a semiconductor, which together form the non-spraying electrode.

Another embodiment of the inventive concept is shown in Fig. 2. Here a is the spraying electrode, b is the non-spraying electrode, c is a semiconductor at the ends (edges) of the non-spraying electrode. This is to prevent that the field strength, which is calculated and based on experience at the entry and exit point the electrode is strongest at this point is reduced to here discharges to prevent; a gradual electrical transition occurs as a result, which one by using a sharpening or several semiconductors of different conductivity can shape gently. This is particularly important in cases where the cross-sectional constriction should be a minimum, for example, if the gas cleaner is in an existing one Smoke pipe should be switched on. In this case you can use the known Do not use means, pipe widening, wire thickening, because this creates the clear Cross-section of closely spaced vaginal cells would be too narrow. To the invention but it is practically possible to put the cells so tight that the clear cross-section of the smoke pipe is not narrowed. The semiconductor c can, for. B. have a slightly lower conductivity than the semiconductor b to the field strength at the inlet and outlet of the spray wires. For example, c made of wood, b made of concrete.

Claims (3)

PATENT CLAIMS: x. Non-spraying electrode for electric gas cleaners, characterized in that it is on the side facing the electric field is clothed with a semiconductor. 2. Non-spraying electrode for electrical Gas purifier, characterized in that its edges consist of semiconductors. 3. Non-spraying electrode for electric gas cleaners according to claims z and 2, characterized characterized in that the semiconductor is gradually tapered towards the edge. q .. Non-spraying electrode for electric gas cleaners according to Claim 2, characterized in that that they are made of different semiconductors and move towards the edge of decreasing conductivity consists.