SU654846A1 - Electric calcinator - Google Patents

Description

The invention relates to the field of ferrous and non-ferrous metallurgy, the chemical industry, and oil refining, where carbon materials such as anthracite, petroleum and pitch coke, etc., are calcined to reduce the volatile content and increase the electrical conductivity and mechanical strength. After calcination, these materials are used to manufacture conductive carbon and graphite electrodes, blocks, anodes, electrode masses, and also structural graphite.

Single-phase electrochlorinators with annular water-cooled electrodes are known, in which the material is heated only in the inter-electrode space in a refractory lining shaft, while the inner diameter of the electrodes and the shaft is the same size 1. These electrochlorinators can only be used for calcining at temperatures not higher than 1400 1500 ° C due to the large uneven heating.

A single-phase open-type electrochlorinator is known, which contains a height-adjustable graphite (either carbon or self-caking) electrode, a quenching shaft with a bottom electrode, supplying a single-phase transformer with

a voltage regulator; a refrigerator in the form of a water-cooled pipe; and a discharge device in the form of a damper 21 opened periodically by a lever actuator.

This electrochlorinator is closest to the invention in its technical nature and the result achieved.

However, it has the following drawbacks: the unevenness of calcination due to a significant difference in the temperatures of the peripheral zone and the central one (under the electrode), which is aggravated by the pronounced dependence of the electrical conductivity of the carbonaceous material on temperature; restriction of the possibility of increasing the temperature of calcination above 1500 ° C due to the increasing non-uniformity of heating during calcination to a higher temperature; periodic discharge of the electrochlorinator caused by the need for prolonged holding of the calcined material in the calcination chamber to achieve uniformity of calcination due to the distribution of heat in the material.

The aim of the invention is to increase the uniformity of calcination, increase the temperature of the calcination to 1600-ISOO C and more, decrease the electrical resistivity, as well as increase the efficiency of the process and its continuity.