SU515788A1 - The method of temperature control blowing in blast furnaces - Google Patents

Description

one

The invention relates to ferrous metallurgy, in particular, to methods for controlling the temperature of a heated blast in a blast furnace.

There is a known method of controlling the temperature of a hot blast, in which a constant temperature is maintained by mixing with a cold blast, not exceeding the temperature of the blast at the outlet of the air heater in the hot air cooling (blowing) period.

The purpose of the invention is to increase the average temperature of the blow and reduce coke consumption.

This is achieved by the fact that according to the proposed method, the flow rate of the cold blowing for mixing is changed, providing temperature fluctuations of the heated blowing within ± 5% of the average value, and the ratio of the period of temperature fluctuations to the blowing period of the air heater is within 1-0.01.

FIG. Figure 1 shows the graphs of temperature variations for blowing with different time control methods; in fig. 2 is a diagram of the proposed device.

Curve 1 corresponds to the absence of regulation of the temperature of the hot blow, directly to the 2 constant temperature of the hot blow, and curve 3 to the temperature of the hot blow, oscillating around a certain average value.

The average value around which the temperature of the hot blowing fluctuates will be higher than the constant temperature on the straight 2. The temperature rise depends on the number of stoves operating in the unit and the frequency of oscillations. The smaller the number of heaters in the unit and the lower the oscillation frequency, the greater the excess of the average temperature. The frequency of fluctuations in the temperature of a hot blow is chosen to be minimal, but such that it does not let the object through, i.e., so that the fluctuations in temperature blow do not affect the chemical composition of the cast iron. The shape of the temperature fluctuation blowing is not critical, but triangular oscillations are preferred.

FIG. 2 shows three air heaters, of which two are standing on heating, and one on blowing (valves that are closed, blackened). A cold blowing stream passes through one air heater, standing on a blast, is heated in this air heater and then enters a hot air duct, where it mixes with cold blast passing through a mixing throttle 4. The temperature of the mixture, i.e. hot, blowing, entering in a furnace, measured by a sensor -5, for which a thermocouple is used. The signal from sensor 5 goes to

secondary device 6, which displays and records the temperature of a hot blow. The temperature controller 7 compares the signals of the setpoint temperature of the hot blow coming from the program setting device 8 and the actual value coming from the secondary device 6. In accordance with the magnitude and sign of the mismatched regulator 7, it moves the mixing choke 4 using the slider mechanism 9, To achieve equal specified and actual temperatures of hot blowing.

In the event of a zero closure, the throttles 4 are connected to the blast by the heated air heater, and the cool down is turned off and set to heat. If the program driver 8 emits a constant signal, we will get the usual scheme for stabilizing the temperature of a hot blow.

Field experiments have shown that with three air units operating in the same block, the heaters can be expected to increase the average value of the temperature fluctuations by about 20 ° C compared to the bare value; Such an increase in the temperature of a hot blast on a single blast furnace of 2,700 m makes it possible to obtain an annual economic effect of about 200 thousand rubles.

Claims (1)

Invention Formula Blowing temperature control method in blast furnaces, which includes mixing heated and cold blowing in a direct air duct, characterized in that, in order to maintain the average temperature, blowing and reducing coke consumption, the flow of cold blowing by displacement is changed, causing the temperature of the heated blowing to change. within dzo% of the mean value, while otinioning the period of temperature fluctuations against the percussion blowing of the air heater is in the range of 1-0.01. . sr / J