DD209937A1 - METHOD FOR DETERMINING THE FREE LENGTH OF ELECTRODES - Google Patents

Abstract

The invention relates to a method for determining the free length of Soederberg electrodes. It consists of the combination of chemical and radioactive preparations, whereby the chemical preparations consist of chemicals, which pass into the melt after reaching the electrode lower edge and can be detected there analytically, while the radioactive preparations serve only for the determination of a fixed point for the chemical preparations. For this already low activities are sufficient.

Description

Method for determining the free length of electrodes Field of application of the invention

The invention relates to a method for determining the free length of electrodes of the 'Soderberg type in open, covered or closed furnaces on the basis of the analytical detection of chemical substances in the reaction product according to the invention description DD-WP 151 498.

Characteristic of the known technical solutions

Under the free length of the part of the electrode from a certain Fispunkt, z. 3. the electrode holder, to understand Slektroden lower edge. The knowledge of this parameter is important for an optimal way of driving electric furnaces, especially in the production of calcium carbide and phosphorus. To measure this size directly, the furnace bed is lowered so far that after lifting the electrodes, the ends are free and can be determined by means of a yardstick, the length of the electrodes · The workers are exposed to a special risk and physical stress. In addition, the method has the disadvantage that a reduction in the performance of the furnace is necessary.

In addition to a number of other methods, it has also been suggested that the length of the advancement of the electrode from the passage of a radioactive preparation fixed in the electrode through a certain point to the evaporation of the

radioactive preparation in the arc zone and to calculate the free electrode length. However, this method has the disadvantage that a relatively high activity and a measuring technique, which ensures a constant readiness to measure even at very high temperatures, are required. It has therefore been proposed (DD -? /? 151 498), in the electrode, a chemical To enter a preparation which consists of chemicals that are not contained in the reaction product and to analytically detect these substances in the reaction product in order to determine the free electrode length on this basis. But even this method has the disadvantage that large inaccuracies occur due to fluctuations in the Senklängenschritte of the electrodes.

Object of the invention

The aim of the invention is the determination of the free length of Söderberg electrodes,

Presentation of 7 / esens the invention

The invention has for its object to develop a method for determining the free length of Söderberg electrodes.

The inventive method for determining the free length of Söderberg Slektroden consists in the combination of chemical and radioactive preparations, wherein the chemical preparations consist of chemicals that are not contained in the reaction product and can be detected analytically after reaching the electrode ünterkante in 'reaction product while the radioactive preparations serve to determine an issue for the chemical preparations. For this purpose radioactive preparations of low activity suffice. Hit help of a suitable Heßeinrichtung the passage of the radioactive preparation and thus the chemical preparation at a certain location, eg. 3. at the upper edge of the power supply

Bake, measured · The activities are selected in such a way that a clear signal is registered on the measuring probe as it passes through the measuring point. They are usually so low that the threshold for radioactive substances is not exceeded in their transition into the reaction product. Thus, no special radiation protection measures are required. Activities of a few MBq are generally sufficient already.

As radioactive preparations are those whose half-life is sufficient for the respective measurement, z.3. 3a-140 / La-140th It is advantageous to package chemical and radioactive prepatates together in suitable containers, e.g. in metallic sleeves, which are attached to the struts of the Slektrodenmantels. The wall thickness of the container is chosen so that the absorption losses for the radioactive radiation are as low as possible with sufficient mechanical stability. The required activity also depends on the preparations being used at a distance from the side edge of the electrode. The smaller this distance, the lower the absorption of the radiation in the electrode material and the lower the activity to be employed.

Of course it is also possible to repeat the measurements. The distance between the preparations should be chosen so that the transition of each chemical preparation into the melt is analytically detectable. On the other hand, it is also possible to vary the chemical substance from preparation to preparation; however, this requires a slightly higher level of analysis effort.

AUsführungsbeisOiel

The figure shows the scheme of the method according to the invention.

In an electric furnace for the production of carbide the length of the electrode of the type Sederberg should be determined. For this purpose, an aluminum sleeve 3 is introduced into the electrode 1, which is a mixture of 300 g of barium sulfate and 3.7 IvIBq Ba-140 / La-140-oxide

· A scintillation probe 4 is installed on the upper edge of the power supply jaws 2. When the electrode 3 reaches the height of the scintillation probe 4 when the electrode is lowered, the registered counting rate increases. This gives an exact reference point for the electrode length measurement. When, after further lowering of the electrode, the preparation reaches the electrode lower edge and thus merges into the melt, the barium is detected by chemical analysis in the reaction product, i.e. in the calcium carbide.

Claims (3)

invention claim 1. A method for determining the free length of Sb'derberg electrodes, characterized in that chemical and radioactive preparations are combined, wherein the chemical preparations consist of chemicals that are not contained in the reaction product and after reaching the electrode bottom edge in the reaction product be detected analytically, while the radioactive preparations serve to determine an ixpoint. 2. The method according to item 1, characterized in that ЗаЗО _{д is used} as a chemical preparation. 3 "method according to item 1, characterized in that Зa-140 / La-140 with activities of 1 to 10 MBq is used. For this 1 page drawings.