SU946678A1 - Corona discharge electrode for electric filters - Google Patents

Description

The invention relates to the purification of industrial gases from fog-like and boiler-liquid acids using electrostatic precipitators, and can be used in the chemical, petrochemical, metallurgical industry and other sectors of the national economy.

An electrostatic precipitator with corona electrodes, equipped with electrically conductive acid-resistant graphite-containing enamel coatings and having a configuration of alternating protrusions and depressions fl, is known.

However, enamel coatings are characterized by such a defect as brittleness, and therefore, when the coronary electrodes are bent, cracks can form, with the result that the corrosion process will occur under the coating layer. Enamels also do not possess chemical resistance to fluorine-containing media and, therefore, have a limited scope, since most of the objects that produce electric wet gas cleaning contain gases containing fluorine and its compounds in the gas to be cleaned.

Known electrostatic precipitator with corona electrodes in the form of metall

a cylinder with ribs welded to its outer surface, the cylinder being sunk into insulating cell liners placed between the corona and collecting electrode G2.

The disadvantage of these electrodes is that they are made in a monoblock with cellulose insulating inserts, which significantly increases the cost of construction due to the great complexity of the technology of manufacturing cellals. In addition, the known electrostatic precipitator is designed for the purification of chemically aggressive gases and therefore the metal tube with fins is made of expensive and scarce chemical resistant metals.

The purpose of the invention is to increase the efficiency and reduce the metal intensity of electrostatic precipitators designed to purify chemically aggressive gases.

Claims (2)

The goal is achieved by the fact that the corona tube has an electrode for electrostatic precipitators made in the form of a hollow cylinder with ribs, the ribs are provided with teeth by projections, and the height of the ribs refers to the distance between them as 0.6-0.7, the height of the teeth is step between them as 0.55-0.65. In addition, the corona electrodes can be made screw with protrusions located on the ribs. The electrode is made of an electrically conductive polymer material. FIG. 1 shows a coronization electrode made in the form of a hollow cylinder; in fig. 2 shows section A-A in FIG. 1, in FIG. 3 - corona electrode made screw; in fig. 4 is a graph of current-voltage characteristics of the electrodes. The device consists of a corona tube of the electrode 1, made in the form of a screw or cylinder, provided with ribs 2 fixed to the outer surface. The ribs are equipped with teeth 3, installed with the ratio of the height of the ribs with a distance between them as 0.6-0.7 the height of the teeth of the steps refers to the pitch between them as 0.55-0.65, and the diameter of the discharge electrode to the diameter of the precipitation electrode, as 0.25-0.30. The electrode is made of an electrically conductive polymer material. The device works as follows. The contaminated gas enters the electrostatic precipitator, in the area of the discharge electrode 1 and collecting electrodes (not shown), where the process of sedimentation of particles in the gas stream proceeds by corona action. Coronation occurs mainly with the tip of the teeth 3 of the electrode 1. The efficiency of the deposition process is ensured by the chosen ratio of the sizes of the discharge electrode, since this constructive design of the electrode strengthens the observed phenomenon, which is confirmed by comparative tests of the proposed electrode, prototype, and analog. The results of the tests performed are graphically expressed (Fig. 4). The current-voltage characteristics of a coiled tape-toothed electrode (analog) 1, a discharge electrode in the form of a cylinder with edges (prototype) 2, and the proposed discharge electrode 3 are presented. The advantage of the chosen design parameters of the electrode is explained By reducing the ratio of the height of the ribs to the distance between them to o, 5, there is a partial mutual influence of the discharges emanating from the edges, and increasing this ratio to o, 8 will create a field do not fall under the action of the electric field .stvie. In this and in another case, a decrease in the current density is observed, and the current dependence as a function of voltage approaches curve 2 (Fig. 4). Similar relationships are observed when reducing the ratio of the height of the teeth to the pitch between them to 0.50 or increasing it to 0.70 and beyond. Thus, with the indicated ratio of the dimensions of the electrodes, the current density of the corona discharge increases, and hence the efficiency of the electrostatic precipitator. An increase in the efficiency of the electrodes is ensured by the fact that coronaing occurs mainly from fixed points of the electrodes, namely from the tips of the teeth, and the indicated ratio of the dimensions of the electrode enhances the effect of the process underway. In addition, when applying the proposed electrodes, the metal intensity of the electrostatic precipitators decreases as a whole, due to the fact that the electrodes are made of polymeric materials. Claim 1. Corona electrode for electrostatic precipitators made in the form of a hollow cylinder with ribs, characterized in that, in order to increase efficiency and reduce the metal intensity of electrostatic precipitators, the ribs are provided with teeth by projections, the height of the ribs refers to the distance between them as 0, 6-0.7, and the height of the teeth-protrusions refers to the pitch between them as 0.55-0.65. 2. Electrode POP.1, characterized in that the electrode is screwed with protrusions located on the generators. 3. Electrode on PP. 1 and 2, in that it is made of an electrically conductive polymer material. Sources of information taken into account during the examination 1. USSR author's certificate number 745535, cl. On 01 D 35/06, 03/20/78. 2. USSR author's certificate number 745534, cl. On 01 D 35/06, 03.11.76. J. / A-A . g 5ff 8ff fOO t. t t