AT511202B1 - METHOD AND DEVICE FOR GAS-GAS HEATING - Google Patents

Abstract

The invention relates to a method for increasing the temperature of in a blast furnace (1) at the blast furnace head (5) accumulating and leased lines (6) from the blast furnace (1) derived blast furnace gas. In this case, the top gas is mixed at the blast furnace head (5) and / or in the leased lines (6) with combustion exhaust gases from at least one of the blast furnace head (5) and / or the dedicated lines (6) burner (11). The combustion gases have a higher temperature than the blast furnace gas. Another object of the invention is a blast furnace (1) with a blast furnace head (5) and leased lines (6) for the discharge of blast furnace gas from the blast furnace head (5), wherein at the blast furnace head (5) and / or in the leased lines (6) at least a burner (11) is present, whose combustion gases can be mixed with the blast furnace gas at the blast furnace head (5) and / or in the leased lines (6).

Description

Austrian Patent Office AT511 202 B1 2012-10-15

description

TABLE OF THE INVENTION

METHOD AND DEVICE FOR GAS-GAS HEATING TECHNICAL FIELD

The invention relates to a method for increasing the temperature of accumulating in a blast furnace at the blast furnace head and via dedicated lines from the blast furnace blast furnace gas.

STATE OF THE ART

Blast furnace gas blast furnace is subject to temperature variations due to the operation of the blast furnace, for example due to differences in the mixture of Möllers, slipping of the bed, differences in the Durchgasbarkeit of Möllers, differences in the amount of wind introduced, differences in the temperature of the wind introduced. In addition, the environmental temperature of these systems also plays a role: while at high ambient temperatures, a blast furnace gas at high ambient temperatures generally does not dew point below the dew point in any of the downstream forwarding and purification systems, at low ambient temperatures there is a risk that it will due to stronger cooling to below the dew point comes. Changes in ambient temperatures often depend on the weather or season. In addition, changes in the ambient temperatures also have the effect that, at lower ambient temperatures, colder and possibly also moister dust is charged into the blast furnace. Other situations that lead to relatively low Gichtgastemperaturen are, for example, start-up and shutdown of the blast furnace, or operating situations in which a lot of Möller was charged into the blast furnace.

Accordingly, in the blast furnace downstream facilities for forwarding and cleaning the top gas is not always ensured that they are traversed by top gas, whose temperature is above the dew point of the top gas.

Below the dew point is not desirable because by associated condensation corrosion problems can occur in the downstream equipment. When using fabric filters for dry gas cleaning, it is necessary to ensure a temperature above the dew point of the gas to be purified - otherwise condensation of the fabric filters may occur due to condensation, which reduce the gas permeability of the fabric filters and damage the fabric filters.

It is known to regulate the temperature of the top gas, characterized in that the filling height of the blast furnace is changed. When the filling level is low, the hot blast blown into the blast furnace gives less energy to the bed of the blast furnace than at a high filling level. Accordingly, the blast furnace gas at low level has a higher temperature. Such a regulation is slow, however. A disadvantage is also that at lower filling levels of the blast furnace is not fully utilized and accordingly less economical, that is, with less efficiency, operated.

SUMMARY OF THE INVENTION

TECHNICAL TASK

It is an object of the present invention to provide methods and apparatus that provide an alternative to changing the level based regulation of the temperature of the top gases and are not associated with their disadvantages. 1 15 Austrian Patent Office AT511 202 B1 2012-10-15

TECHNICAL SOLUTION

This object is achieved by a method for increasing the temperature of accumulating in a blast furnace at the blast furnace head and via dedicated lines from the blast furnace blast furnace gas, which is characterized in that the blast furnace at the blast furnace head and / or in the dedicated lines with combustion gases from at least a burner attached to the blast furnace head and / or the standpipe is mixed, wherein the combustion exhaust gases have a higher temperature than the blast furnace gas.

The gas mixture obtained by the mixing of blast furnace gas and combustion exhaust gases is also referred to in this application as blast furnace gas.

The burners are installed either on the blast furnace head or in the leased lines. Especially at high speed difference between the hot combustion exhaust gases and the blast furnace, a good mixing with the blast furnace gas is made possible, whereby an increase in the blast furnace temperature is very rapid. In the burners, for example, natural gas is burned with air as fuel gas, so that the combustion exhaust gases contain CO 2 and H 2 O due to the reaction of CH 4 with the oxygen of the air, the combustion exhaust gases also containing nitrogen from the air.

ADVANTAGEOUS EFFECTS OF THE INVENTION

In this way, the temperature of the top gas can be controlled quickly and without reducing the efficiency of the blast furnace.

Since the filling height of the blast furnace in accordance with the invention control of the blast furnace temperature does not have to be chosen with respect to the gas temperature less high than actually possible, the blast furnace can operate with higher dumping height. Accordingly, the hot air is better utilized and increases the efficiency of the blast furnace.

According to a preferred embodiment of the method according to the invention the blast furnace gas is mixed at the blast furnace head and / or in the leased lines with combustion exhaust gases from at least one attached to the blast furnace head and / or the dedicated lines burner when the temperature of the blast furnace gas falls below a preselected threshold.

In this way, the use of the burner is more economical than permanent mixing.

Advantageously, flame detectors are provided at the burners, for example UV cells, ionisation electrodes.

According to one embodiment, the amount of energy introduced by the combustion exhaust gases is regulated in dependence on a preselected target value for the temperature.

According to one embodiment, the regulation of the introduced amount of energy is carried out by the amount of substance of the combustion gases is regulated.

Another object of the invention is a blast furnace with a blast furnace head and with dedicated lines for the discharge of blast furnace gas from the blast furnace, characterized in that the blast furnace head and / or in the dedicated lines at least one burner is present, the combustion gases with the top gas at the blast furnace head and / or are mixable in the leased lines. The burners are, for example, high-speed burners.

Preferably, a device for detecting the temperature of blast furnace gas at the blast furnace head and / or the dedicated lines is available; for example, thermocouples.

According to one embodiment, a device for controlling the blast furnace admixed amount of the combustion exhaust gases of the burner is present.

According to a further embodiment, a device for controlling the device for controlling the blast furnace admixed amount of the combustion exhaust gases of the burner on the basis of that of the device for detecting the Temperature of blast furnace gas at the blast furnace head and / or the leased lines information provided.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will be explained with reference to a schematic and exemplary figure of an embodiment.

Figure 1 shows a blast furnace according to an embodiment of the present invention. DESCRIPTION OF THE EMBODIMENTS

Figure 1 schematically shows a blast furnace 1, which is filled with a bed 2. Hot blast 3 is blown through hot blast nozzles 4 in the bed 2. Top gas - represented by straight arrows - emerges from the bed, collects at the blast furnace head 5, and is discharged via leased pipes 6 from the blast furnace head. Via subsequent pipes 7, the blast furnace gas is fed to a dedusting device 8, which in the example shown comprises a cyclone 9 and a fabric filter system 10. Both in the blast furnace head 5 and in the leased lines 6 burner 11 are present. The combustion exhaust gases of these burners, represented by wavy arrows, mix with the top gas and thereby increase the temperature of the top gas. At the blast furnace, a device for detecting the temperature of blast furnace gas at the blast furnace 12 is present. On the leased lines devices for detecting the temperature of blast furnace gas on the leased lines 13 are present. A device 16 for controlling the blast furnace added to the molar amount of the combustion exhaust gases of the burner is also present. Via lines 14 and 15 -these lines may be physically present, or may be transmission of radio signals or other signals - information is sent to the device 16 for controlling the blast furnace-admixed amount of combustion gases from the burner on the basis of the device of Detecting the temperature of top gas at blast furnace head 12 and supplied by the device for detecting the temperature of blast furnace gas on the dedicated lines 13.

Shown are burners on blast furnace head and in the leased lines. In principle, it is also possible to provide burners only at the blast furnace head or only in the dedicated lines.

LIST OF REFERENCE SIGNS 1 blast furnace 2 bed 3 hot blast 4 hot blast nozzle 5 blast furnace head 6 dedicated line 7 piping 8 dedusting device 9 cyclone 10 fabric filter unit 11 burner 12 Apparatus for detecting the temperature of top gas at the blast furnace 13 Devices for detecting the temperature of blast furnace gas on the dedicated lines 14 line 15 line 16 Device for controlling the added to the blast furnace material amount of the combustion exhaust gases of the burner 3/5

Claims (8)

Austrian patent office AT511 202B1 2012-10-15 Claims 1. A method for increasing the temperature of blast furnace gas obtained in a blast furnace (1) at the blast furnace head (5) and via dedicated lines (6) from the blast furnace (1), characterized in that Blast furnace gas at the blast furnace head (5) and / or in the leased line (6) with combustion exhaust gases from at least one of the blast furnace head (5) and / or the dedicated lines (6) mounted burner (11) is mixed, wherein the combustion gases have a higher temperature than that Have top gas. 2. The method according to claim 1, characterized in that only then the blast furnace at the blast furnace head (5) and / or in the leased lines (6) with combustion gases from at least one of the blast furnace head (5) and / or the dedicated lines (6) mounted burner (11) is mixed when the temperature of the top gas below a preselected threshold. 3. The method according to claim 1 or 2, characterized in that in dependence on a preselected target value for the temperature of the introduced by the combustion exhaust gas amount of energy is controlled. 4. The method according to claim 3, characterized in that the regulation of the introduced amount of energy is carried out by the amount of substance of the combustion gases is controlled. 5. blast furnace (1) with a blast furnace head (5) and leased lines (6) for the discharge of blast furnace gas from the blast furnace (5), characterized in that the blast furnace head (5) and / or in the leased lines (6) at least one burner (11) is present, the combustion gases with the blast furnace gas at the blast furnace head (5) and / or in the leased lines (6) are mixable. 6. Blast furnace according to claim 5, characterized in that a device for detecting the temperature of top gas at the blast furnace head (12) and / or the leased lines (13) is present. 7. A blast furnace according to claim 5 or 6, characterized in that a device for controlling the blast furnace admixed amount of the combustion exhaust gases of the burner (16) is present. 8. A blast furnace according to claim 7, characterized in that a device for controlling the device for controlling the blast furnace admixed amount of the combustion exhaust gases of the burner (16) on the basis of the device for detecting the temperature of blast furnace gas at the blast furnace (12) and / or the leased lines (13) supplied information is present. 1 sheet of drawings 4/5