SU510700A2 - System for regulating the process of chlorination of concentrates in the melt - Google Patents

Description

II

The invention relates to process control systems for the chlorination of raw materials in the molten metal salts and can be used in titanium and magnesium plants and plants of rare metals.

A system is known for regulating the process of chlorinating concentrates in a melt, but the main author. St. 231819.

However, such a system does not ensure the constancy of the melt composition in terms of the content of titanium dioxide and the prevention of accidental foaming of the chlorinator.

The proposed system differs from the known one in that it has serially connected sensors for controlling the melt resistance in a chlorinator and an analog-code converter, the outputs of which are connected to the inputs of the concentrate flow controller and the chlorine flow controller, respectively.

This makes it possible to improve the quality of regulation and the reliability of the system for regulating the chlorination process.

Ia the drawing shows the proposed system.

The system includes a chlorine concentration sensor 1, a converter 2, a chlorine temperature sensor 3, a converter 4, a chlorine pressure sensor 5, a converter 6, a chlorine consumption sensor 7, a converter 8, a computing device 9, a chlorine consumption controller 10, a consumption regulator 11 concentrate, concentrate flow sensor 12, chlorine leakage sensor 13, summation unit 14, coke consumption controller 15, first 16, second 17 and third 18 actuating valves, resistance control sensor 19, analog-code converter 20, chlorinator 21.

The system works as follows.

The signals from the outputs of sensors 1. 3, 5 and 7 through converters 2, 4, 6 and 8 are fed to the input of the computing device 9, from which output a signal proportional to the weight of chlorine is fed to the regulator 10 of the chlorine flow and the regulator 11 of the flow concentrate, which simultaneously receives signals from sensors 12, 13 and 19.

The signal from sensor 19 also goes to controller 10. Summation unit 14 and controller 15 serve to maintain the necessary coke consumption for the calculated amount of oxygen. Adjustable impact pulses are applied to actuating valves 16, 17, 18.

The proposed system coordinates the work of stabilizing the consumption of concentrate and chlorine consumption in the computing device 9 with correction according to the signal proportional to the resistance of the melt taken from the sensor

19. Sliped from the sensor 19 through the generator “analog-code 20 is fed to the inlet; 1Y of the regulators 10 and 11. The removed signals characterizing the change in the state of the melt in titanium dioxide affect the regulating clans 16, 17. When the content of dioxide decreases titanium in the melt, the yen level in the chlorinator 21 increases. At the same time, due to the increase in the number of gas inclusions, the resistivity of the rasklava increases. The sensor 19 responds to this change in resistance, the signal from which through the converter analog-code 20 goes to regulator 11, which increases the concentrate supply, and to controller iO, which

reduces the flow of chlorine. This prevents the emergency foaming of chlorine.

Claims (1)

Invention Formula The system for regulating the process of chlorination of concentrates in the melt according to the author. St. Up to 231819, characterized in that, in order to improve the quality of the process of regulation and reliability of the system, it installed series-connected sensor for monitoring the resistance of the melt in the chlorinator and the analog-code converter, the outputs of which are connected to the inputs of the concentrate flow controller and regulator chlorine consumption torus. Waste