DE364436C - Method and arrangement for electrical gas cleaning - Google Patents

Description

Method and arrangement for electrical gas cleaning. Addition to Patent 361249. As an independently controllable process that is responsible for dust deposition is able to generate required ionization according to the main patent, comes apart the mentioned in the main patent still another embodiment in question, according to which the Ionization occurs on the surface of a body heated to red heat or higher.

Structurally, the easiest way to realize this type of ionization would be that one Makes the surface of the discharge electrode glow by connecting the electrode itself as an electrical resistor in a circuit and heated in this way, or by providing the heating indirectly. This is the simplest However, embodiment has the disadvantage that the electrode, which is in the fast Streams of the gas to be cleaned is located, from which drafts of air a lot of heat is extracted. Accordingly, their heating requires considerable amounts of energy. Also collects Dust builds up on the discharge electrode and sticks to the glowing surface and thereby possibly a decomposition of the electrode or the covering of the glowing one Oterfläche can bring about a coat of dirt.

For these reasons it is advantageous not to use the glowing body itself as an outflow electrode, but only to use it as an ion source. This is achieved by placing the glowing body in a protective cover similar to that of the tube carrying the burner mouths according to Fig. 2 and 3 of the main patent. A design that realizes this idea is shown in Fig. I of the drawing. A bifilar wire B , tensioned by the weight A , is fastened in the electrically insulating socket C and conducted through this socket so that it can be heated by the heating transformer D to a bright red glow. The wire is surrounded by the sheath E and conductively connected to it at one point. In the shell there are the slots F which can be seen in Fig. 2, from which the ionized gas, which has become conductive on the glowing wire, emerges. In order to ensure an abundant escape of ions, a relatively slow gas flow is blown in through the pipe socket G, which flows out at the slots F and thus supplies the ions to their edges.

In this case, the glowing inner wire is no longer the discharge electrode, because it is completely electrostatic through the protective walls of the high voltage field is shielded. Rather, the annealed wire is merely a producer of the necessary Ions. In this case, the outflow electrodes are the edges of the slots F.

The immediate heating of the incandescent body shown in the figure is unreliable in all cases where electrically conductive or the incandescent body attacking dust is deposited on them. This is because the den Cross-section of the incandescent bodies that conducts heating current and thus their heating is uneven. In such cases, the incandescent body is tubular and heated indirectly. The heating then takes place inside the tube. One uses an electric one for this Heating device, e.g. B. a spiral or resistance wound on an insulator a graphite resistor. A combustion process can also be carried out inside the pipe entertain, which takes place preferably in a porous filling material.

There is also the possibility of using the discharge electrode or the Manufacture incandescent bodies from a second-class conductor, which is the highly stressed Electricity only after it has been heated, similar to the luminous element of the Nernst lamp, begins to lead. Such an incandescent body can be used in the manner already mentioned from be heated inside. It has the advantage of being chemically resistant in the presence of corrosive components in the gas to be cleaned.

In order to increase the ionizing properties of the incandescent body, is it is advisable to cover its surface with metal oxides, preferably alkaline earth oxides, to cover.

Claims (3)

PATENT CLAIMS: i. Process for electrical gas cleaning according to the main patent 361249, characterized in that the ionization is effected by touching the to be ionized Gas is generated with a glowing radiator. 2. radiator according to claim i, characterized in that it is tubular and optionally made up of a second conductor Class is made and that the heating in its interior or in the pores its material by heating an electrical resistor or by burning it takes place. 3. Arrangement according to claim i, characterized in that the ions generating incandescent body is provided with protective walls in which there are openings or Gaps are located, the edges of which form the discharge electrode, which is to be cleaned Gas is optionally supplied with the aid of a special gas flow.