SU392128A1 - METHOD OF AUTOMATIC REGULATION OF ENERGY AND TECHNOLOGICAL PROCESS OF PROCESSING OF SILCH MATERIALS IN A CYCLONE UNIT - Google Patents

Description

I

The invention relates to the field of metallurgy, and in particular to methods for the automatic regulation of the energy-technological cyclone process for the non-processing of combustible charge materials used in the production of rare metals, for example, germanium.

There is a known method of automatically regulating the energy and technological process of processing charge materials, including the automatic regulation of the vacuum in the chamber and the composition of the gas atmosphere with correction to the content of carbon dioxide in combustion products.

The purpose of the invention is to provide an optimal energy technological regime of cyclone melting and to maintain the required temperature in the cyclone chamber.

The proposed method for automatic registration of the energy technological process for processing charge materials in a cyclone unit includes automatic control of the temperature in the cyclone chamber to stabilize the flow of combustible charge with correction according to the temperature of the flowing slag melt; stabilizing the aerodynamic regime of the cyclone unit by maintaining a constant air flow in the air-fuel system; automatic regulation of the composition of the atmosphere in the cyclone chamber by changing the fuel consumption

gaga, taking into account the current costs of the charge and air with a correction for the content of carbon monoxide in the combustion products; automatic regulation of the vacuum in the digger by the influence of the regulator on the guide vanes of the smoke exhausters.

Pa the drawing shows a diagram of the automatic regulation of an energy technological cyclone plant for processing gas1; their charge materials.

The installation includes an energy technological cyclone 1 and a pigment 2 of molten scrap. Pipeline 3 combustible gas, line 4 of aerated charge and air line 5 are connected to the cyclone. In addition, the installation is equipped with molten slag temperature sensor 6, sensor 7 of aerated charge consumption, charge control regulator 8, cyclone discharge sensor 9, pressure regulator 10, air flow sensor //, air quantity regulator 12, gas flow sensor 13, carbon monoxide // sensor in combustion products, gag consumption regulator 15 and computing device 6, which forms the signal proportional to required for flammable gas consumption.

The charge mixture and gas entering the cyclone / pipelines 4 and 3 are mixed in the burner device with air entering the rio pipeline 5, and burned in a cyclone chamber. The slag formed in the combustion process flows through a non-rare cyclone into a copy-file, and the combustion products containing volatile sublimates of metals are carried away from the inclination for further capture. To stabilize the aerodynamic mode of operation of the cyclone, the signal from the air flow sensor is fed to the air amount regulator 12 in the cyclone. The supply of the charge to the cyclone chamber is stabilized by the HJxix flow controller 8, which, when continuously set, receives a correction pulse from the molten slag temperature sensor 6 and, as a feedback, the signal from the aerated mixture flow sensor 7. In order to maintain the necessary vacuum in co-oplion, the signal from the vacuum sensor 9 sets on the vacuum regulator 10, acting and controlling the exhaust air 1 of the smoke exhausters. The configuration of the required air-to-weight ratio works as follows. WA computing device 16 receives signals from sensor 7 of the flow rate of aerated charge, from sensor 11 of air consumption and a correction signal from sensor 14 of carbon monoxide content in combustion products. A computing system is generated in the computing device, which is proportional to the required gas flow rate to achieve the required atmospheric composition in the chamber. This cng is compared to a gas flow sensor or signal, and a gas flow controller 15 regulates the flow of gas to a cyclone in accordance with the required amount determined by the computing device 16. The subject of the invention 1. The method of automatically controlling the energy technological process of processing batch materials in a cyclone unit, Including automatic regulation of vacuum in the chamber and the composition of the gas atmosphere with correction for the content of carbon monoxide in the combustion products, characterized in that, for the purpose Ensuring optimal energy mode, air flow is maintained at a constant level, and the required atmospheric composition in the unit is provided by controlling the flow of combustible gas. 2. The way io and. 1, characterized in that, in order to maintain the required temperature in the cyclone chamber, the flow rate of the combustible charge is controlled.