UA78862C2 - Method for heat recovery of outlet gases of the blast-furnace stoves - Google Patents

Abstract

The invention relates to the field of ferrous metallurgy. A method for heat recovery of outlet gases of the blast-furnace stoves involves introduction of the cold air and composite fuel to the heat exchangers for heating of the composite fuel and air, disposed at the pipelines of the hot outlet gases of the stoves, through which hot outlet gases are supplied, supplying of the cold composite fuel and air after heating in the heat exchangers for combustion into the primary furnaces of the stoves, consumption adjustment of the cold composite fuel and air, which are supplied for combustion into the primary furnaces of the stoves, according to the temperature of their heating in the heat exchangers, at that the consumption of the cold composite fuel is regulated by the change of consumption of one of the blending agent of the composite fuel, and according to the calorie content of the composite fuel the consumption of another blending agent is changed. The invention allows to decrease fuel quantity and air combustion, to increase the coefficient of efficiency of the blast-furnace stove.

Description

Description of the invention

The invention relates to ferrous metallurgy, in particular to methods of waste heat utilization of 2 air heaters of blast furnaces operating on a fuel mixture with a variable calorific value of the fuel mixture.

There is a known method of waste gas heat utilization of air heaters of blast furnaces, which involves recirculation of waste gases, i.e. due to the suction of smoke for recirculation, the air is heated, which enters the combustion of gas fuel in the combustion chamber of the air heater|see patent of Ukraine Mo 13492, IPC 5 70. cS2189/10, pub. 25. 04. 97., Bull. May 21.

The signs that coincide with the signs of the proposed technical solution: air heating and discharge of waste gases of the air heater into the chimney.

However, this method does not provide heating of gas fuel.

There is a known method of waste heat utilization of blast furnace air heaters, which includes the supply of a cold fuel mixture consisting of several combustion components and air to heat exchangers for heating the fuel mixture and air installed on the pipelines of hot waste gases of air heaters, supply of hot waste gases to heat exchangers, regulation heating temperature of the fuel mixture by changing the flow of waste gases through the heat exchanger for heating the fuel mixture and the removal of cooled waste gases after the heat exchangers into the chimney. At the same time, a part of the waste gases is diverted, bypassing the heat exchangers, into the smoke pipe, and the temperature of the waste gases in the smoke pipe is regulated by mixing a part of the hot waste gases fed into the smoke pipe, bypassing the heat exchangers, with the cooled waste gases after the heat exchangers | see patent of Ukraine Mo 70723A, IPC 7 C2189/10, publ. 15.09.2004. Bul. Mo 9).

Features that coincide with the features of the technical solution that is claimed are: supply of cold fuel mixture consisting of several combustion components and air to heat exchangers for heating the fuel mixture (He) and air installed on the hot waste gas pipelines of air heaters, supply of hot waste gases to the heat exchangers, regulation of the temperature of heating the fuel mixture by changing the flow of waste gases through the heat exchanger of heating the fuel mixture, removal of part of the waste gases, bypassing the heat exchangers, into the smoke pipe, regulation of the temperature of the waste gases entering the smoke pipe, with mixing of part of the hot waste gases with cooled waste gases gases after heat exchangers. Gee)

The disadvantage of the prototype is the lack of regulation of the amount of fuel mixture and air supplied for combustion in the combustion chamber of the air heater, according to the temperature of their heating in the heat exchangers, and, as a result, a decrease in the efficiency of the air heater. with

The invention is based on the task of improving the method of heat utilization of waste gases of air heaters of blast furnaces by reducing the amount of fuel and combustion air due to their heating and preparation of a fuel mixture of the required calorific value, as well as reducing the consumed electricity for the transportation of combustion air and, as a result, increasing the efficiency blast furnace air heaters.

The task is solved by the fact that in the method of heat utilization of waste gases of air heaters of blast furnaces, which includes the supply of cold air and a fuel mixture consisting of several combustion components to heat exchangers for heating gaseous fuel and air, installed on the pipelines of hot waste gases of air heaters , supply of hot exhaust gases to heat exchangers,

From" regulation of the temperature of heating the fuel mixture by changing the flow of waste gases through the heat exchanger of heating the fuel mixture, diverting part of the waste gases, bypassing the heat exchangers, into the smoke pipe, regulating the temperature of the waste gases in the smoke pipe by mixing part of the hot waste gases supplied to the smoke pipe, bypassing heat exchangers, with cooled waste gases after that. heat exchangers, according to the invention, additionally regulate the consumption of cold fuel mixture and air that are supplied

Ge | for combustion in the combustion chambers of air heaters, according to the temperature of their heating in heat exchangers, while the consumption of the cold fuel mixture is regulated by changing the consumption of one of the components of the fuel mixture, after which the calorific value of the fuel mixture is determined, and the consumption of the second component is changed according to the caloric value of the fuel mixture.

Gee! 20 In addition, low-calorific blast furnace and high-caloric natural gases are used as components of the combustion of the fuel mixture, and when the calorific value of the fuel mixture changes and its consumption is changed from the ratio of combustion air consumption to consumption of the fuel mixture.

The cause-and-effect relationship between the set of essential features of the claimed technical solution and the achieved technical result is as follows. 29 Heating a fuel mixture consisting of low-caloric and high-caloric gases and air in

HF) heat exchangers for waste gas heat utilization provides a reduction in the amount of fuel mixture and air going to combustion in the combustion chambers of air heaters of the blast furnace, which is reflected accordingly in the system of their preparation and supply for heating, namely: a reduction in the total volume of the fuel mixture and combustion air supplied for heating leads to an additional increase in their heating temperature 60, which ensures an additional decrease in the amount (proportion) of high-calorie gas in the fuel mixture, necessary to create a fuel mixture of the required caloric value to achieve the required heating temperature of the air heater nozzle, reduces the amount of consumed of electricity for the transportation of combustion air, increases the energy-saving effect of waste gas heat utilization, increases the efficiency of blast furnace air heaters.

The method of heat utilization of waste gases of air heaters of blast furnaces is implemented with the help of a device, the scheme of which is presented in Fig. 1.

The device for heat utilization of waste gases of blast furnace air heaters consists of a heat exchanger 2 for heating the fuel mixture, a heat exchanger Z for heating air for combustion, a regulator 12 for the flow of waste gases installed on the pipeline 11 of cooled waste gases after the heat exchanger 2 for heating the fuel mixture, connected by electrical connections with temperature sensor 13, installed after the heat exchanger 2 for heating the fuel mixture on the pipeline 14 of the heated fuel mixture after leaving the heat exchanger 2 for heating the fuel mixture, the additional bypass pipeline 5 of exhaust gases, bypassing the heat exchangers, with the exhaust gas flow regulator 6 installed on it, connected by electrical connections tongues with a temperature sensor 7 installed in the smoke pipe 4, pipelines 1 of hot exhaust gases 70 air heaters of blast furnaces, pipelines 11 of cooled exhaust gases after heat exchangers 2 of heating the fuel mixture and From air, pipeline 15 p removal of the cold fuel mixture, the calorimeter 18, installed on the pipeline 15 of the cold fuel mixture, connected by electrical connections 19 with the regulator 20 of the flow of high-calorie gas, installed on the pipeline 16 of the high-calorie gas; regulator 28 of the flow of low-calorie gas, installed on the pipeline 17 of low-calorie gas, 7/5 breceived by electrical connections 26 with the processor 25 /panel of control and measuring devices /KVP/, which is connected by electrical connections 23 and 24 to temperature sensors 21 and 22 , installed on pipeline 14 of the heated fuel mixture and pipeline 10 of heated air, respectively; as well as pipeline 9 for the supply of cold air from the fan 8, the electric motor of which is connected to the processor 25 (KVP shield) through the frequency regulator 29 by electrical connections 27.

The method of waste heat utilization of air heaters of blast furnaces is implemented as follows.

Waste gases from air heaters with a temperature of about 2702 enter through pipelines 1 of hot waste gases to heat exchangers 2 of heating the fuel mixture and Z of air heating. Cooled waste gases from heat exchangers 2 for heating the fuel mixture and from air heating through pipelines 11 of cooled waste gases are taken to the smoke pipe of 4 air heaters. with

The cold fuel mixture, consisting of low-calorie and high-calorie gases, flows through pipeline 15 of the cold fuel mixture into the heat exchanger 2 of heating the fuel mixture, where it is heated to a temperature of about 1802, and then through pipeline 14 of the heated fuel mixture it is fed to the combustion chambers of the air heaters.

With the help of the temperature sensor 13, installed on the pipeline 14 of the heated fuel mixture after the heat exchanger 2 of heating the fuel mixture, a signal is sent to the flow regulator 12 of exhaust gases installed on the pipeline 11 of cooled exhaust gases after the heat exchanger 2 of heating the fuel mixture. ish

If the temperature of the fuel mixture rises, the exhaust gas flow regulator 12 is closed as necessary, reducing the amount of exhaust gas flow through the fuel mixture heating heat exchanger 2, and if the temperature of the fuel mixture decreases, on the contrary, the exhaust gas flow regulator 12 opens, so

By increasing the magnitude of this flow. rch-

Cold air from the fan 8 flows through the pipeline 9 of the cold air supply to the heat exchanger. From the heating of the air, it is heated to a temperature of about 180 2, and then through the pipeline 10, the heated air is supplied to support the combustion of the fuel mixture in the combustion chambers of the air heaters. "

With the help of the temperature sensor 7 installed in the smoke pipe 4, a signal is sent to the regulator 70 of the flow rate 6 of waste gases, installed on the additional bypass pipeline 5 of waste gases, connected - with the smoke pipe 4, bypassing the heat exchangers 2 for heating the fuel mixture and C for heating the air. If the temperature in the smoke pipe 4 increases, the exhaust gas flow regulator b is closed as necessary, reducing the amount of exhaust gas flow directed into the smoke pipe 4, and if the temperature in the smoke pipe 4 decreases, then on the contrary, the exhaust gas flow regulator 6 opens, increasing the amount of this flow. Thus, in the smoke pipe 4, the set temperature of the waste gases "above the dew point" is maintained by mixing part of the hot waste gases with the cooled waste gases after the heat exchangers 2 of heating the fuel mixture and from heating combustion is not allowed its destruction. (ee) In order to maintain the calorific value of the fuel mixture supplied through the pipeline 15 for supplying the cold fuel b»50 mixture for combustion in the combustion chamber of the air heater through the heat exchanger 2 for heating the fuel mixture, it is assumed that high-calorific natural gas with a calorific value of about 8000 kcal/nm3 is mixed with low-caloric natural gas blast furnace gas with a calorific value of 700-800 kcal/nm3. In this way, a fuel mixture with a calorific value of 1000 kcal/nm3 is created. For this purpose, natural gas flows through pipeline 16 of high-calorific gas connected to external sources of natural gas through regulator 20 of high-calorific gas consumption into pipeline 17 of low-calorific gas, which transports blast furnace gas from external sources through regulator 28 of low-calorific gas. o After cutting the pipeline 16 of the high-calorie gas into the pipeline 17 of the low-calorie gas, the fuel i.e. mixture through the pipeline 15 supplying the cold fuel mixture enters the calorimeter 18, where its calorific value is determined. 60 Heating the fuel mixture (consisting of low-calorie and high-calorie gases) and air in heat exchangers for the utilization of the heat of the waste gases of the air heater ensures a reduction in the amount of fuel and air that goes to combustion in the combustion chambers of the air heaters of the blast furnace.

Regulation of this decrease, i.e., the consumption of cold fuel mixture and air, which are supplied for combustion in the combustion chambers of air heaters, according to the temperature of their heating in heat exchangers, is carried out as follows. 65 Signals from the temperature sensor 21, installed on the pipeline 14 of the heated fuel mixture, and the temperature sensor 22, installed on the pipeline 10 of the heated air, via electrical connections 23 and 24, are sent to the processor 25 /CPU board/, where, after appropriate processing, through electrical connections 26, the flow of low-calorie gas, installed on the pipeline 17 of low-calorie gas, is supplied to the regulator 28 for its covering or opening, depending on the heating temperature of the fuel and air that goes to combustion in the air heaters of the blast furnace. At the same time, the high-calorific gas flow rate regulator 20, installed on the high-calorific gas pipeline 16, through the calorimeter 18 and electrical connections 19, changes the high-calorific gas flow to create the appropriate calorific value of the fuel mixture. In addition, the signal from the processor 25 /KVP board/ through electrical connections 27 is sent to the frequency regulator 19, which in the necessary way affects the electric motor of the fan 8, where due to the speed of rotation of the electric motor /o, the amount of air supply required for high-quality fuel combustion.

Thus, the method of waste heat utilization of blast furnace air heaters provides a high energy-saving effect by reducing the amount of fuel used to heat air heaters and reducing the amount of electricity consumed for combustion air transportation, as well as by reliable operation of the heat recovery device and all blast furnace air heating systems.

Claims (3)

The formula of the invention 1. The method of waste heat utilization of air heaters of blast furnaces, which includes the supply of cold air and fuel mixture, which consists of several combustion components, to heat exchangers for heating the fuel mixture and air, installed on the pipelines of hot waste gases of air heaters, supply of hot waste gases to heat exchangers, regulation of the temperature of heating the fuel mixture by changing the flow rate of waste gases passing through the heat exchanger for heating the fuel mixture, diverting part of the waste gases, bypassing the heat exchangers, into the smoke pipe, regulating the temperature of the exhaust gases in the smoke pipe by mixing part of the hot waste gases entering the smoke pipe , bypassing the heat exchangers, with cooled waste gases after the heat exchangers, supply of cold (o) fuel mixture and air after heating in the heat exchangers for combustion in the combustion chambers of air heaters, which is distinguished by the fact that they additionally regulate the flow of cold of the fuel mixture and air, which are supplied for combustion in the combustion chambers of the air heaters, according to the temperature of their heating in the heat exchangers, while the consumption of the cold fuel mixture is regulated by changing the consumption of one of the components of the fuel mixture, after which the calorific value of the fuel mixture is determined, and the caloric value of the fuel mixture change the consumption of the second component. is), 2. The method according to claim 1, which differs in that low-calorific blast furnace gas and high-calorific natural gas are used as components of the fuel mixture combustion. 3. The method according to claim 1, which differs in that when the calorific value of the fuel mixture and its consumption change, the ratio of combustion air consumption to fuel mixture consumption changes by 99%. chn - and? -i (ee) (ee) (o) Ko) ime) 60 b5