RU1770696C - Method of control of electric mode of operation of multielectrode ore-smelting furnace with even number of electrodes - Google Patents

Abstract

The invention can be used in electrothermal, non-ferrous metallurgy and other industries where ore-reducing electric furnaces are used. In the method of controlling the electric mode of an ore-thermal furnace with a pair of electrodes, current and voltage are measured, the active power value is generated, the measured values are compared with the same set values and, when their values are mismatched, the electrodes are moved, the voltage levels of the furnace transformer are switched to eliminate the mismatch, while the mismatch in power and voltage of each pair of electrodes is mutually exclusive in time, and the paired electrodes themselves are moved synchronously to in the following directions: when the control for mismatching the active power is blocked, the first one is simultaneously raised, the second pair electrodes are lowered, the voltage mismatch on the electrodes is negative, and the first voltage is positively mismatched, the first pair is lowered and the second electrodes are raised, and when the mismatch control is blocked The voltages at the pair electrodes simultaneously lift both electrodes of the pair up, with a positive value of the mismatch active minute and lowered them down with a negative value of active power mismatch, 1 yl. Chapter XI VI

Description

The invention relates to electrothermics, and more particularly, to methods for controlling the electric mode of multi-electrode ore-thermal furnaces (RTPs), and can be used in automated RTP control systems to improve the accuracy of production processes, for example, in nickel furnaces and to reduce specific energy consumption.

The drawing shows a block diagram of a control system for explaining the operation of the control method according to the invention.

Sensors 2, 3 of voltage Ui, L) 2 on paired electrodes and a shaper 4 of active power P. are connected to the ore-thermal furnace 1. Summing amplifiers 5,6, connected to the corresponding switches 7, 8 of similar values, through threshold blocks 9, 10 connected to the logic block 11, the logic block 11 is connected with its initiative outputs to the devices 12, 13 for transferring the paired electrodes of the furnace 1 and the voltage switching device 14 of the transformer of the furnace 1.

A method for controlling the electric mode of a multi-electrode ore-thermal furnace with a pair of electrodes is implemented, for example, in the following way (see drawing). Sensors 2 and 3 of the voltage Ui and Ua of a pair of electrodes connected to a single transformer of a multi-output electric furnace are measured 1 and form in block 4, on the basis of current signals I and phase voltage L f, an electric signal propopional to active power K The electrical signal obtained as a result of summing in block 5 and compared with a similar set value from master 7 L proportional mismatch stresses on paired electrodes A U Ui-lJ2, fed through threshold unit 9 to the logic unit 11. The same logic unit 11 receives an electric signal from the driver 4 through a summing amplifier, where the operation is performed to obtain whitefish, ali proportional to AP-R-P „ach and the second threshold block 10,.; Proportions 1C | n of the coordination of the excitation power LR R-Rzzd.

Block 11 of the logic moves paired spectrodes through actuators 12, 13 in accordance with the following order, as long as there is a disagreement in power L P, the control channel for voltage U is closed, and after working through DR, then equalization Ui-U2. those. elimination of the Lee mismatch, in other words, the mismatch of the mismatch in the power of the AR and the voltage AU of each pair of electrodes is mutually exclusive in time, and the gzmi paired electrodes connected to one furnace transformer of the multi-electrode furnace are moved synchronously in the following directions: when control is blocked According to the active power mismatch, A P simultaneously raises the first one and lowers the second pair electrodes at a negative value of the voltage mismatch - Lee on the electrodes. With a positive mismatch, Au of the indicated voltage simultaneously lowers the first and raises the second electrodes of the pair. When the voltage mismatch control is blocked on the paired electrodes, both electrodes of the pair rise simultaneously at a positive value of the mismatch of the active power AP and lower them down with a negative value of the mismatch of the active power (-A P).

For a more complete job removal

paired electrode control logic unit 11 is a table.

It should be noted that if the power mismatch is positive and at least one of the electrodes reaches the pair of the highest upper position (upper end), the blocking is stopped and the transformer stage is switched to the side of the electrode

to reduce the voltage, and if the power mismatch is negative and at least one electrode reaches the pair of its lowest position (lower end), the blocking is switched off and the step switch is switched

transformer in the direction of increasing voltage.

The application of the invention allows to increase the productivity of the furnace by increasing the accuracy of stabilization of the mode of operation

Claims (1)

SUMMARY OF THE INVENTION A method for controlling the electric mode of a multi-electrode ore-thermal furnace with an even number of electrodes, mainly when connecting paired electrodes to one furnace transformer, including measuring current and voltage, determining the value of active power, comparing the voltage and active power with the values set by the technology, processing the mismatch voltage and active power due to the movement of the electrodes and switching the voltage stage of the furnace transformer, characterized in that, in order to increase the furnace productivity and reduce the specific energy consumption, the power and voltage mismatches are mutually exclusive in time, and when the voltage mismatch is worked out, the first is simultaneously raised, the second is lowered pair electrodes with a negative value of the voltage mismatch on the electrodes, and with a positive mismatch of the indicated voltage, simultaneously lower the first one and raise the second electrode of the pair, and when working out a power mismatch, both electrodes simultaneously lift the pairs upward; with a positive value of the active power mismatch, they drop them at a negative value active power mismatch, and if the power mismatch is positive and at least one of the electrodes reaches the pair of extreme upper position, the step of the transformer of the pair of electrodes is switched to the side decrease the voltage, and if the power mismatch is negative and at least one electrode reaches the pair of extreme low position, the stage of the furnace transformer is switched in the direction of increasing voltage.