RU2212014C2 - Method and device for control of pressure of blast-furnace gas - Google Patents

Abstract

FIELD: ferrous metallurgy, applicable in blast-furnace process. SUBSTANCE: the method consists in measurement of gas pressure by the first pressure transducer at the outlet of gas from the furnace, measurement of blast pressure delivered to the furnace by the second pressure transducer, change of the position of the first actuator by the preset signal from the first regulator, a pulse from the first pressure transducer is transmitted to the first regulator via the first recorder with a pressure set-point device. A pulse from the second pressure transducer to the second regulator is transmitted via the second reco9rder with a pressure set- point device and a switch gear. The position of the second throttle actuator is changed, and an electric signal from the position pickup of the first actuator is also applied to the switch gear. The device for control of pressure of blast-furnace gas has the first pressure transducer for measurement of pressure at the furnace outlet, the second pressure transducer for measurement of the blast pressure, the first regulator, whose output is connected to the first actuator. The device is provided with two recorders with set-point devices, second regulator, switch gear second throttle actuator position pickup of the first actuator. The first pressure transducer is connected to the first regulator v/a the first recorder with a set-point device, the second pressure transducer is connected to the second regulator via the series-connected second recorder with a set-point device and a switch gear. The output of the second regulator is connected to the second actuator, the position pickup of the first actuator is connected to the input of the switch gear. EFFECT: enhanced quality of capacity control, reduced consumption of coke, flue dust escape and loss of heat with gases. 3 cl, 1 dwg

Description

 The invention relates to the metallurgy of ferrous metals and can be used in blast furnace production.

 As the closest analogue, a method and a system for automatically controlling the blast furnace top gas pressure according to RU 2106411 C1, cl. From 21 V 7/24, 10.03.1998, according to which the gas pressure is measured by the first pressure sensor at the gas outlet from the furnace, the pressure of the blast entering the furnace is measured by the second pressure sensor. Upon the signal from the regulator, the position of the actuator is changed according to the task.

 The control device for the closest analogue contains a first pressure sensor for measuring gas pressure at the outlet of the furnace, a second pressure sensor for measuring blast pressure, and also a regulator, the output of which is connected to the actuator.

 A disadvantage of the known technical solution is the regulation of pressure only by changing the gas flow rate at the outlet of the furnace.

 The technical result is an increase in the quality of regulation of the top gas pressure both due to a change in the gas flow rate at the outlet of the furnace, and due to a change in the flow rate of blast supplied to the furnace.

 The technical result is achieved due to the fact that in the method of controlling the pressure of the top gas in the furnace, including measuring the pressure of the top gas by the first pressure sensor at the outlet of the furnace, measuring the pressure of the hot blast entering the furnace by the second pressure sensor, changing the position of the first actuator for regulation gas pressure in the furnace, depending on the signal from the first regulator on the job, the electrical signal from the first pressure sensor is transmitted to the first regulator through the first register a control device with a pressure switch, transmit an electric signal from the second pressure sensor to the second regulator through a second recording device with a pressure switch and a switching device, change the position of the second throttle actuator to control the pressure of the hot blast depending on the signal from the second controller, while switching the device also provides an electrical signal from a position sensor of the first actuator.

 The technical result is also achieved due to the fact that the device controlling the pressure of the top gas in the furnace, containing a first pressure sensor for measuring the pressure of the top gas at the outlet of the furnace, a second pressure sensor for measuring the pressure of the hot blast, the first regulator, the output of which is connected to the first actuator for regulating the gas pressure in the furnace, equipped with two recording devices with setpoints, a second regulator, a switch, a second throttle actuator, a sensor the position of the first actuator, and the first pressure sensor is connected to the first regulator through the first recording device with the master, the second pressure sensor is connected to the second regulator through series-connected the second recording device with the master and the switch, the output of the second regulator is connected to the second actuator, the position sensor of the first the actuator is connected to the input of the switch.

The drawing shows a block diagram of a device for regulating the pressure of top gas. The device contains:
1 - regulation object, blast furnace;
2 - pressure sensors: the first at the gas outlet from the furnace, the second at the inlet of the blast into the furnace;
3 - pressure recording devices: the first is gas pressure, the second is blast pressure;
4 - pressure adjusters: the first is the task for gas pressure, the second is the task for blast pressure;
5 - pressure regulators;
6 - actuators: the first, regulating the gas pressure, the second, regulating the pressure of the blast;
7 - throttle position indicators: the signal comes from the sensor of the actuator;
8 - control chokes: the first gas, the second for blasting;
9 - chimney to discharge excess blast;
10 - blower feeding the blast into the furnace;
11 is a switching device for regulating gas pressure or blast.

 The device operates as follows: a predetermined volume of blast from the blower 10 enters the blast furnace - 1, from the sensor 2 the pulse enters the device 3 with the setpoint 4, then the signal goes to the regulator 5, which rotates the throttle 8 by the actuator 6 with the indicator 7, adjusting pressure at the gas outlet from the furnace. From the sensor of the actuator 6, an electric signal enters through the switching device 11 to the blast regulator 5, the actuator 6 with the position indicator 7 rotates the throttle 8, reducing or increasing the blast to regulate the gas pressure according to the task, the excess blast is discharged into the chimney.

 In case of excess of the blast pressure above a predetermined impulse from the sensor 2 is supplied to the device 3 with the setpoint 4, the control signal of the pressure sensor 2 turns on the switching device 11 to the blast reset position, the signal goes to the regulator 5, the actuator 6 with the pointer 7 and the throttle 8, which discharges excess blast into the chimney 9, the pressure is normalized and the control signal enables feedback through the switching device 11, performing double regulation. All instruments and devices involved in the regulation are typical.

 Using the control method allows you to create a gas stream over the entire cross section of the tuyere zone, control it, supply oxygen and heat with the blast, which evens out the heat field, improving the drainage of the melting products, eliminating the cause of the tuyere burning, helps to even out the blast consumption by tuyeres and they work until wear, increases the coke replacement coefficient, increases productivity, reduces coke consumption, dust removal and heat loss with the exit of the gas from the furnace, increases the service life of the filling apparatus, facilitates working conditions, increases the culture of production, allows you to control the progress of the blast furnace.

Claims (2)

 1. The method of regulating the pressure of the top gas in the furnace, including measuring the gas pressure by the first pressure sensor at the gas outlet from the furnace, measuring the pressure of the blast entering the furnace by the second pressure sensor, changing the position of the first actuator by a signal from the first controller according to the task, characterized in that the pulse from the first pressure sensor is transmitted to the first regulator through the first recording device with a pressure adjuster, the pulse is transmitted from the second pressure sensor to the second regulator through the second istriruyuschy device with a pressure setting device and the switching device changing the position of the second throttle actuator mechanism, wherein the switching device for the electric signal is also fed to the first actuator position sensor.  2. A device for controlling the pressure of blast furnace gas in the furnace, comprising a first pressure sensor for measuring gas pressure at the outlet of the furnace, a second pressure sensor for measuring blast pressure, a first regulator, the output of which is connected to the first actuator, characterized in that it is provided with two recording devices with adjusters, a second regulator, a switch, a second throttle actuator, a position sensor of the first actuator, the first pressure sensor being connected to the first the regulator through the first recording device with the master, the second pressure sensor is connected to the second regulator through the second recording device with the master and the switch connected in series, the output of the second controller is connected to the second actuator, the position sensor of the first actuator is connected to the input of the switch.