CN101539371A - First flue gas dust removal and waste heat recovery system for electric stove - Google Patents

Abstract

The invention relates to a first flue gas dust removal and waste heat recovery system for an electric stove. The system is connected with the smoke hole of the electric stove and comprises a water cooling travelling tube, a combustor and a water cooling flue gas path, and the system also comprises a high temperature resistant dust remover, a waste heat recovery device, a dust removal fan and a chimney. The outlet of the combustor is communicated with the smoke hole of the electric stove by the water cooling travelling tube and the outlet of the combustor is communicated with the high temperature resistant dust remover by the water cooling flue gas path. The outlet of the high temperature resistant dust remover is communicated with the inlet pipeline of the waste heat recovery device, thus the flue gas after dust removal can be sent into the waste heat recovery device. The outlet of the waste heat recovery device is communicated with the chimney by the fan, and the waste heat recovery device is used for absorbing the heat of the flue gas. The dust removal fan is arranged on the pipeline between the waste heat recovery device and the chimney. The system of the invention has the advantages of high dust removal efficiency, strong operability, safe and steady operation, low energy consumption and steam recovery, thus realizing flue gas emission reduction and energy conversation of the electric stove.

Description

First flue gas dust-removal and residual neat recovering system

Technical field

The present invention relates to the industrial furnace flue gas and handle and the recuperation of heat field particularly a kind of high-temperature flue gas one-time dedusting and residual neat recovering system that is applied in the metallurgical steel mill EAF Steelmaking Process.

Background technology

Steel mill's electric furnace rhythm of production is generally accelerated at present, and the hot metal charging ratio strengthens, and exhaust gas volumn increases considerably when causing electric furnace smelting thus.For electric stove dust, be mainly concerned with the disposable problem of electric furnace flue gas waste heat recovery and waste heat.

Existing most electric furnace flue gas waste heat does not reclaim, and the flue gas final dusting when high-temperature flue gas one-time dedusting that produces when adopting electro-smelting and electric furnace charging, tapping merges the cover electric stove dust system that is set to.Wherein, a high-temperature flue gas of discharging from the electric furnace steam vent during electro-smelting, adopting lowers the temperature earlier cools off, the mode of back dedusting.High-temperature flue gas adopts secondary cooling usually, promptly adopts water-cooled flue once to cool off and adopts the air blast cooling device or natural air cooling device secondary cools off.But in this mode, electric furnace high-temperature flue gas waste heat does not obtain reclaiming, and has therefore caused the waste of heat energy.

At present, the electric furnace flue gas of only a few has adopted waste heat recovery reluctantly.For example: a high-temperature flue gas more than 1400 ℃ of discharging from the electric furnace steam vent during with electro-smelting, employing is sneaked into a large amount of air earlier and is cooled to below 700 ℃, dedusting again after the secondary flue gas when using heat pipe waste heat boiler recovered steam, the cooled flue gas of cooling with electric furnace charging and tapping then mixes.But in this mode, wasted very big energy and made system become huge because of sneaking into a large amount of air, the what is more important electric furnace flue gas is without dedusting, containing a large amount of trickle caking property dust in the high-temperature gas also will be bonded on the heat pipe heating surface, thereby increased maintenance workload and running resistance, reduced the heat transfer efficiency and the service life of heat pipe heating surface simultaneously.

Summary of the invention

In order to overcome the defective of above-mentioned prior art, task of the present invention is to provide a kind of first flue gas dust-removal and residual neat recovering system, it has solved above-mentioned existing in prior technology problem, possessed flue gas ash removal simultaneously and reclaimed the function of flue gas heat energy, and had flue gas ash removal efficient height, workable, security of system stable operation, advantage that energy consumption is low.

Technical solution of the present invention is as follows:

A kind of first flue gas dust-removal and residual neat recovering system, connect the electric furnace exhaust smoke hole, described system comprises that a water-cooled moves pipe, a combustion chamber, a water-cooled flue, and described system also comprises a high temperature resistant dust collector, a waste-heat recovery device, a dedusting fan and a chimney;

The inlet of described combustion chamber moves pipe by water-cooled and is communicated with the electric furnace exhaust smoke hole, and the outlet of combustion chamber is communicated with high temperature resistant dust collector by water-cooled flue;

The outlet of described high temperature resistant dust collector is communicated with the inlet duct of waste-heat recovery device, makes the flue gas after the dedusting send into waste-heat recovery device;

The outlet of described waste-heat recovery device is communicated with chimney by blower fan, and waste-heat recovery device absorbs the heat of flue gas;

Described dedusting fan is installed on the pipeline between waste-heat recovery device and the chimney.

The present invention takes following further technical measures:

Described first flue gas dust-removal and residual neat recovering system also comprise: a bypass pipe, and its two ends are communicated with the pipeline of waste-heat recovery device entrance and exit respectively; And a transfer valve, be arranged on the bypass pipe, to open and close bypass pipe.

Described first flue gas dust-removal and residual neat recovering system also comprise: a pressure-regulating valve is arranged on the inlet duct of waste-heat recovery device, with the pressure of control electric furnace fire door.

Described high temperature resistant dust collector comprises: an insulation and filter, a pulse spraying equipment, an ash-discharging device, a control system and the connecting line between them; Described attemperator is installed on the deduster housing, and filter is to filter equably by the outer dust in flue gas of passing towards filter bag inside of filter bag; The enabled instruction that described pulse spraying equipment receiving control system sends is carried out automatic ash removing to filter bag; Described ash-discharging device is communicated to the bottom of high temperature resistant dust collector to collect dust.

Described high temperature resistant dust collector also comprises: the grey storehouse of a storage connects ash-discharging device, to store dust.

Described first flue gas dust-removal and residual neat recovering system also comprise: a frequency converter connects dedusting fan, with the rotating speed of control dedusting fan.

Described waste-heat recovery device means cooling wall membrane type waste heat boiler, or heat pipe waste heat boiler, or mixes the combined type waste heat boiler of fuel burning.

Described combustion chamber can be replaced by an expansion chamber that makes big dust particle in the gas obtain sedimentation.

Adopt first flue gas dust-removal of the present invention and residual neat recovering system, both met strict environmental protection requirement, again can recovered steam, realize that electric furnace flue gas reduces discharging with energy-conservation.

The present invention makes it compared with prior art owing to adopted above technical scheme and technical measures, has the following advantages and positive effect:

First flue gas dust-removal of the present invention and residual neat recovering system compared with prior art, it is low to have a flue gas ash removal efficient height, workable, security of system stable operation, energy consumption, also the advantage of recyclable steam.System of the present invention has saved secondary cooling device expense such as air blast cooling device or natural air cooler in the prior art; Very suitable electric furnace is set up waste-heat recovery device; Efficiency of dust collection height, the fume emission dust content behind high temperature resistant dust collector are stabilized in 20mg/ mark m ³Below; The amount of steam withdrawn height, electric furnace ton steel amount of steam withdrawn is on average more than 80kg.In addition, system of the present invention also is provided with bypass pipe, can adapt to the needs that electric furnace working conditions change and waste heat boiler plant maintenance do not influence environmental protection and electric furnace production.

Description of drawings

Accompanying drawing is a kind of first flue gas dust-removal of the present invention and residual neat recovering system schematic diagram.

Drawing reference numeral:

1 is the electric furnace exhaust smoke hole, and 2 for water-cooled moves pipe, and 3 is the combustion chamber, 4 is water-cooled flue, and 5 is high temperature resistant dust collector, and 6 is pressure-regulating valve, 7 is waste-heat recovery device, and 8 is bypass pipe, 9 transfer valves, 10 is dedusting fan, 11 is frequency converter, and 12 is chimney, and 13 is ash-discharging device, 14 are the grey storehouse of storage, and 15 is control system.

The specific embodiment

Specifically introduce a preferred embodiment of the present invention below in conjunction with accompanying drawing.

Referring to accompanying drawing, first flue gas dust-removal of the present invention is connected electric furnace exhaust smoke hole 1 with residual neat recovering system, described system moves pipe 2, one combustion chamber 3, a water-cooled flue 4, a high temperature resistant dust collector 5, a pressure-regulating valve 6, a waste-heat recovery device 7, a bypass pipe 8, a transfer valve 9, a dedusting fan 10, a frequency converter 11 and a chimney 12 by a water-cooled and forms.

Wherein, the inlet of combustion chamber 3 moves pipe 2 by water-cooled and is communicated with electric furnace exhaust smoke hole 1, and the outlet of combustion chamber 3 is communicated with high temperature resistant dust collector 5 by water-cooled flue 4.High temperature resistant dust collector 5 outlets are communicated with the inlet duct of waste-heat recovery device 7, and the flue gas after the dedusting is sent into waste-heat recovery device 7.Pressure-regulating valve 6 is arranged on the inlet duct of waste-heat recovery device 7, and is positioned at before the inlet of waste-heat recovery device 7, with control electric furnace fire door pressure.The outlet of waste-heat recovery device 7 is communicated with chimney 12 by blower fan 10, and waste-heat recovery device 7 absorbs the heat of flue gas.Dedusting fan 10 is installed on the pipeline between waste-heat recovery device 7 and the chimney 12.Frequency converter 11 connects dedusting fan 10, with the rotating speed of control dedusting fan 10.The two ends of bypass pipe 8 are communicated with the pipeline of waste-heat recovery device 7 entrance and exits respectively, and bypass pipe is set, and can adapt to the variation of electric furnace operating mode and the needs that the waste heat boiler plant maintenance does not influence environmental protection and electric furnace production.Transfer valve 9 is arranged on the bypass pipe 8, to open and close bypass pipe 8.

Above-mentioned combustion chamber 3 can be replaced by an expansion chamber that makes big dust particle in the gas obtain sedimentation.

Described waste-heat recovery device 7 means cooling wall membrane type waste heat boiler, or heat pipe waste heat boiler, or mixes combined type waste heat boiler of fuel burning etc.

High temperature resistant dust collector 5 of the present invention is made up of an insulation and filter, a pulse spraying equipment, an ash-discharging device 13, the grey storehouse 14 of a storage, a control system 15 and the connecting line between them.The deduster housing is provided with attemperator, and filter filters equably by the outer dust in flue gas of passing towards filter bag inside of filter bag.The enabled instruction that pulse spraying equipment receiving control system 15 sends is carried out automatic ash removing to filter bag.Ash-discharging device 13 is communicated to the bottom of high temperature resistant dust collector 5, to collect dust.Store grey storehouse 14 and connect ash-discharging device 13, to store dust.In the present embodiment, the filter bag of high temperature resistant dust collector 5 adopts special high temperature resistance filtration material to make.

The operating process of first flue gas dust-removal of the present invention and residual neat recovering system is as follows:

Electric furnace is at about 1400 ℃ of high temperature dust gases of melting generation in period, enter water-cooled by the exhaust smoke hole on the electric furnace 1 and move pipe 2, combustion chamber 3 or expansion chamber make the gas-fired in the high-temperature gas, make the big dust particle in the gas obtain sedimentation, entering water-cooled flue 4 again is cooled to about 600 ℃, enter high temperature resistant dust collector 5 purifying and dedustings then, clean gas after the dedusting enters waste-heat recovery device 7, in recovered steam, gas outlet temperature is controlled at about 200 ℃, inserts chimney 12 qualified discharges by dedusting fan 10 at last.

In the high temperature resistant dust collector 5, dusty gas is outer when filter bag inside is passed by filter bag equably, dust is trapped in outer surface by filter bag and clean gas is passed through filter bag, along with thickening of filter bag outer surface dust layer, high temperature resistant dust collector 5 running resistances rise, control system detects Resistance Value, when resistance reaches going up in limited time of setting value, control system starting impulse spraying and blowing organ carries out automatic ash removing with compressed air or nitrogen, dust is stripped from and is fallen into the bottom ash bucket and unloads ash, enter ash-discharging device 13 to the grey storehouse 14 of storage, loaded, transport by the cleaning truck then.

The granular material discharged concentration of the electric furnace flue gas after implementing the technology of the present invention is marked m at 20mg/ ³Below, system's running resistance is below 5kPa, and electric furnace ton steel amount of steam withdrawn is on average more than 80kg.

Technology of the present invention is applicable to the flue gas ash removal and the waste heat recovery of newly-built electric furnace project.Take: first flue gas dust-removal and residual neat recovering system are arranged with electric furnace flue gas final dusting system branch.The main water-cooled flue 4 that adopts is connected with high temperature resistant dust collector 5, and high temperature resistant dust collector 5 is connected with waste-heat recovery device 7, and waste-heat recovery device 7 is connected with dedusting fan 10; Bypass pipe 8 is set; Before waste-heat recovery device 7 inlets, pressure-regulating valve 6 is set, with control electric furnace fire door pressure; Dedusting fan 10 adopts the arrangements for speed regulation of frequency converter 11 or coupling device etc.

First flue gas dust-removal of the present invention and residual neat recovering system are particularly useful for the technological transformation of existing electric stove dust system and set up waste heat recovery.Take method that one-time dedusting systematic pipeline and equipment are separated from existing electric stove dust system: the deduster and the blower fan of existing electric stove dust system will be served the electric furnace final dusting, remove air blast cooling device or equipment such as natural air cooling device and booster fan in the existing electric furnace one-time dedusting, keep existing water-cooled and move pipe 2 and combustion chamber 3 or expansion chamber and water-cooled flue 4.Newly-increased: the arrangements for speed regulation of high temperature resistant dust collector 5, pressure-regulating valve 6, waste-heat recovery device 7, bypass pipe 8, transfer valve 9, dedusting fan 10, frequency converter 11 or fluid-flywheel clutch, chimney 12, ash-discharging device 13, the grey storehouse 14 of storage and control system 15 etc., just can constitute first flue gas dust-removal of the present invention and residual neat recovering system fast, economically, flue gas is carried out dedusting, absorb the after-heat of flue gas simultaneously, make full use of resource.

Certainly, those skilled in the art in the present technique field will be appreciated that, the foregoing description only is to be used for illustrating the present invention, and be not as limitation of the invention, as long as in connotation scope of the present invention, all will drop in the scope of claim of the present invention conversion, the modification of the foregoing description.

Claims (8)

1. first flue gas dust-removal and residual neat recovering system, connect the electric furnace exhaust smoke hole, described system comprises that a water-cooled moves pipe, a combustion chamber, a water-cooled flue, it is characterized in that described system also comprises a high temperature resistant dust collector, a waste-heat recovery device, a dedusting fan and a chimney;

The inlet of described combustion chamber moves pipe by water-cooled and is communicated with the electric furnace exhaust smoke hole, and the outlet of combustion chamber is communicated with high temperature resistant dust collector by water-cooled flue;

The outlet of described high temperature resistant dust collector is communicated with the inlet duct of waste-heat recovery device, makes the flue gas after the dedusting send into waste-heat recovery device;

The outlet of described waste-heat recovery device is communicated with chimney by blower fan, and waste-heat recovery device absorbs the heat of flue gas;

Described dedusting fan is installed on the pipeline between waste-heat recovery device and the chimney.

2. first flue gas dust-removal according to claim 1 and residual neat recovering system is characterized in that, described system also comprises:

One bypass pipe, its two ends are communicated with the pipeline of waste-heat recovery device entrance and exit respectively; And

One transfer valve is arranged on the bypass pipe, to open and close bypass pipe.

3. first flue gas dust-removal according to claim 1 and residual neat recovering system is characterized in that, described system also comprises: a pressure-regulating valve is arranged on the inlet duct of waste-heat recovery device, with the pressure of control electric furnace fire door.

4. first flue gas dust-removal according to claim 1 and residual neat recovering system, it is characterized in that described high temperature resistant dust collector comprises: an insulation and filter, a pulse spraying equipment, an ash-discharging device, a control system and the connecting line between them;

Described attemperator is installed on the deduster housing, and filter is to filter equably by the outer dust in flue gas of passing towards filter bag inside of filter bag;

The enabled instruction that described pulse spraying equipment receiving control system sends is carried out automatic ash removing to filter bag;

Described ash-discharging device is communicated to the bottom of high temperature resistant dust collector to collect dust.

5. first flue gas dust-removal according to claim 4 and residual neat recovering system is characterized in that, described high temperature resistant dust collector also comprises: the grey storehouse of a storage connects ash-discharging device, to store dust.

6. first flue gas dust-removal according to claim 1 and residual neat recovering system is characterized in that, described system also comprises: a frequency converter connects dedusting fan, with the rotating speed of control dedusting fan.

7. first flue gas dust-removal according to claim 1 and residual neat recovering system is characterized in that, described waste-heat recovery device means cooling wall membrane type waste heat boiler, or heat pipe waste heat boiler, or mix the combined type waste heat boiler of fuel burning.

8. first flue gas dust-removal according to claim 1 and residual neat recovering system is characterized in that, described combustion chamber can be replaced by an expansion chamber that makes big dust particle in the gas obtain sedimentation.