SU1717640A1 - Apparatus for controlling carbon-containing fuel flow rate distribution in blast furnace tuyeres - Google Patents

Abstract

The invention relates to metallurgy, in particular to the domain production of iron. The goal is to increase the reliability, fast operation of setting the value of a uniform consumption of carbon-containing fuel over blast furnace tuyeres. To do this, pressure drops are measured on blast furnace tuyeres, which determine the flow rate of hot blast for each tuyere, and depending on this flow rate, oxygen flow is controlled for each tuyere. At the same time, the total oxygen consumption and the total consumption of hot blowing are measured, which are used to find the total amount of oxygen supplied to the blast furnace. Based on the calculated total amount of oxygen, the required consumption of carbon-containing fuel for each tuyere of the blast furnace is determined. The consumption of carbon-containing fuel in tuyeres is controlled by comparing the measured consumption of carbon-containing fuel in tuyeres with the calculated one. 2 Il.

Description

The invention relates to metallurgy, in particular to the domain production of pig iron.

A device is known for controlling the consumption of carbon-containing fuel over the tuyeres of a blast furnace, mainly pulverized coal, including a flow meter, a regulator, and actuators installed on pipelines supplying carbon-containing fuel to tuyeres.

The drawbacks of the device are low reliability and low speed of installation, the value of uniform consumption of coal coal fuels in blast furnace mills. This is explained

the difficulty of setting the required flow rate of additionally injected oxygen for each tuyere, which is practiced manually by the operator; its expense for each lance should be coordinated with the expense of the arrival of the nod to it. From the point of view of ensuring the normal process of combustion of pulverized coal, evenly distributed over the tuyeres of the blast furnace, it must also correspond to the uniform distribution of oxygen supplied by hot blowing and additionally blown. If you have experience, this operation is time consuming.

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In addition, the disadvantage of the known device is the low combustion efficiency of the pulverized fuel under the specified conditions, since the full combustion of the pulverized fuel in the tuyere zone depends on the accuracy of setting the amount of oxygen coming on each tuyere, which is practically impossible to perform under these conditions.

The aim of the invention is to increase the reliability, speed of the installation of the value of uniform consumption of pulverized coal over the tuyeres and the efficiency of its combustion when enriching hot air with oxygen.

This goal is achieved by the fact that the device for controlling the distribution of carbon-containing fuel consumption over the tuyeres of a blast furnace, mainly dust-free, including a flow meter, a regulator, actuators installed on pipelines supplying carbon-containing fuel to the tuyeres, is equipped with a meter for the total flow of hot air, a flow meter additionally injected oxygen, first voltage divider, adder, functional converter, second voltage divider, a carbon-based fuel consumption meter according to tuyeres, comparison blocks by the number of tuyeres, carbon-containing fuel consumption regulators by the number of tuyeres, pressure differential meters on tuyeres, square-root extraction blocks by the number of tuyeres, pulse-width converters by the number of tuyeres, blocks the work of the actuators by the number of tuyeres, the actuators installed on the oxygen supply lines to the tuyeres of the blast furnace,

The total flow meter of hot blowing through the first voltage divider is connected to the first input of the adder, the second input of which is connected to the flow meter of the additional blown oxygen, the output of the adder through the functional converter and the second voltage divider connected to the first inputs of the comparison units, the second inputs of which are connected to the outputs of the carbon-containing fuel consumption meters, the outputs of the comparison units through the carbon-containing fuel consumption regulators are connected to the actuators by anisms from carbon-containing fuel supply lines, pressure drop meters on tuyere devices through blocks

square root and pulse width transducers are connected to the inputs of the control units of the actuators, and whose outputs

connected to the actuators on the oxygen supply lines.

FIG. 1 is a block diagram of the device; in fig. 2 - voltage plots at the input and output of pulse-width converters (UBxi and 1) output |).

The scheme consists of a meter 1 of the total flow rate of hot blowing and a meter 2 of the total flow of the additionally blown oxygen, and also from meter 3

consumption of carbon-containing (dust-free) fuel and blast furnace tuyeres with outlets connected to the first inputs of the comparison units A, connected to regulators 5 of the carbon-containing consumption

(dust-free) fuel.

The device is equipped with pressure drop meters 6 on tuyere devices connected via square root extraction blocks 7 to the inputs of blocks 8

pulse width converters. the outlets of which are connected to the blocks 9 controlling the operation of the electromagnetic valves 10 in the oxygen supply lines. Output meter 2 total flow

oxygen is connected to the first input of the block 11 of the adder, and the output of the meter 1 of the total flow rate is blown through the block 12 of the first voltage divider is connected to its second input. Block 11 output

through the functional converter unit 13 and the second voltage divider unit 14 is connected to the second inputs of the comparison units 4.

The device works as follows.

The signal from the Api differential pressure meters B on tuyere devices is fed to the inputs of the square root extraction unit 7 VApi, since the flow

hot blowing through a separate lance qi can be represented as

QI-

0)

where kc

one

(kcicp. - mean

Wed kcicp. the hydraulic resistance coefficient of the tuyere stock).

In accordance with (1), the necessary information about qi is carried by the factor V Д pi. From blocks 7, signals are sent to blocks 9 of pulse-width transducers, the voltage plots at the input and output of which are shown in FIG. 2. Signal from output 10

Yes, the blocks 8 are fed to the inputs of the blocks, 9 controls the operation of the electromagnetic valves in the oxygen supply pipes (ordinary keys on transistors). The solenoid valves 10 are conventional gate valves installed in pipelines with an electromagnetic actuator operating in the Open-closed mode. Thus, with an increase (decrease) in the consumption of hot blast on the lance, the flow rate of the added oxygen is reduced (increases) due to a change in the duration of the pulses g at the output of the pulse-width converters 8,

The signal from the meter 1 of the total flow rate. Auger is blowing through the first block 12 of the voltage divider implementing

operation Qi (a constant coefficient), is fed to the second input of block 20 11 of the adder. The purpose of block 12, which is a conventional voltage divider on a potentiometer, is to determine the amount of oxygen contained in the stream to blow hotly. The adder 11 is executed on a conventional operational amplifier. The first input of block 11 of the adder receives a signal from the meter 2 of the total flow rate of the additionally blown oxygen (Q2). Thus, the operation is realized. Q Qi + Cte. From the condition of ensuring the necessary completeness of combustion, the technologist sets the functional dependence of ут, Q. where k is the proportionality coefficient. - G.Oput - total 35 mzrny consumption of carbon-containing (pulverized) fuel. In accordance with this, the signal from the adder 11 is fed to the functional converter 13 (a conventional operational amplifier), which implements the operation of the definition 2. Oput. The signal from block 13 enters the course of the second block 14 of the voltage divider implementing the operation - X Oput, 45

where n is the number of tuyeres (the usual voltage divider on the potentiometer). Thus, the required value of the carbon-containing (coal) fuel consumption is set at 50 lulls for each tuyere, with its uniform distribution provided that the full combustion capacity is ensured, which increases the efficiency of this process. Next, the signal from block 14 enters the second inputs of the comparison units 4, the first inputs of which receive signals from the meter 3 of the carbon-containing (pulverized) fuel. The signals unbalance with block 4 are fed to the inputs of the regulators 5 to

thirty

ten

15

20 5 5 0 5

0 5

0

blast furnace tuyeres that set the required value of it. Usually, regulation is carried out by varying the flow rate of the transport air.

Thus, it improves the reliability, speed and efficiency of the installation of a uniform consumption of carbon-containing (pulverized coal) fuel.

Claims (1)

Formula from a spreader and a device for controlling the distribution of carbon-containing fuel consumption over the tuyeres of a blast furnace, mainly pulverized coal, including a flow meter, regulator, actuators installed on pipelines supplying carbon-containing fuel to tuyeres, m and h This, in order to increase the reliability, the installation speed of the value of the uniform consumption of carbon-containing fuel over the tuyeres of the blast furnace and the efficiency of its combustion while enriching the hot blast ki it is equipped with a meter for the total flow rate of hot blowing, a flow meter for additionally injected oxygen, a first voltage divider, an adder, a functional converter, a second voltage divider, a lance type carbon consumption meter, comparison blocks for the number of lances, carbon-containing flow regulators fuel by the number of tuyeres, pressure drop meters on tuyere devices, square-root extraction units by the number of tuyeres, pulse-width converters in h lasers, control units for the operation of actuators by the number of lances, actuators installed on the oxygen supply lines to the blast furnace tuyeres, the total flow meter measuring hot blowing through the first voltage divider connected to the first input of the adder, the second input of which is connected to the additional flow meter oxygen injection, the output of the adder through the Functional Converter. and the second voltage divider is connected to the first inputs of the comparison units, the second inputs to which are connected to the outputs of the flow meters of carbon-containing fuel. the outputs of the comparison units through the carbon-containing fuel consumption controllers are connected to the actuators on the carbon-containing fuel supply pipelines, the pressure drop meters on the tuyere devices through the blocks extracting the square root and latitudinal mechanisms, the outputs of which the co-pulse converters are connected to the actuators by the inputs of the control blocks of the performance of the oxygen supply pipelines. ABOUT Immune strain