CN201658945U

CN201658945U - Sintering smoke purifying system based on heat pipe afterheat recovery technology

Info

Publication number: CN201658945U
Application number: CN2010201764255U
Authority: CN
Inventors: 张红; 许辉; 万懿; 庄骏
Original assignee: Nanjing Tech University
Current assignee: Nanjing Tech University
Priority date: 2010-04-30
Filing date: 2010-04-30
Publication date: 2010-12-01
Anticipated expiration: 2020-04-30

Abstract

The utility model relates to a sintering smoke purifying system based on the heat pipe afterheat recovery technology. A sintering machine is communicated with a heat pipe afterheat recovery plant, the recovery plant is communicated to desulfurizer through an electrostatic precipitator, an induced draft fan, an air damper and a booster fan, the desulfurizer is communicated to a chimney through the air damper and a heat exchange device, a coal gas connector is disposed in an adsorption tower, the adsorption tower is communicated to the desulfurizer through an ammonia storage tank and an ammonia adjusting tank, the desulfurizer is communicated with a circulation liquid pool, the circulation liquid pool is communicated with a filter press, the filter press is communicated with the sintering machine, the circulation liquid pool is communicated to a dryer through an oxidation pond, a filter, a multiple-effect crystallizing evaporator, a thickening tank and a centrifugal machine, an oxidation fan is communicated with the circulation liquid pool, and the heat pipe afterheat recovery device is respectively communicated with a heat exchange device, the adsorption tower, the multi-effect crystallizing evaporator and the dryer. The sintering smoke purifying system resolves problems of pollution caused by steel production, is obvious in energy-saving effect and short in investment payoff period, realizes the purpose of using waste to treat waste and changing the waste into the treasure, and meets total requirements of low carbon economy to respond to problems of climate change at present.

Description

Sintering gas purifying system based on the heat pipe heat recovery technology

Technical field

The utility model relates to the energy-conserving and environment-protective technology that a kind of steel enterprise sintering machine flue gas is handled, particularly a kind of sintering gas purifying system based on the heat pipe heat recovery technology.

Background technology

Steel industry is as energy consumption rich and influential family, heavy polluter, and nearly material input over half is finally with the form output of waste gas, solid waste or byproduct.The SO that steel manufacture process produces ₂Be mainly derived from sintering circuit, account for iron and steel enterprise's total emission volumn more than 70%, the energy consumption of sintering circuit is also very big simultaneously, accounts for 12% of metallurgical total energy consumption, and the waste heat of discharging accounts for 49% of wastage in bulk or weight heat energy.How to control SO in the sintering machine production process ₂Discharging, be the SO of iron and steel enterprise ₂Pollute the emphasis of control.

Before the utility model proposes, application number is that the patent of invention of 200910098231.X discloses a kind of " the sintering flue gas desulfurization combined coke-stove gas deamination circulation technology and the circulatory system ", and this patent is to utilize coke-stove gas deamination product-ammonium sulfite to deviate from SO in the sinter fume as desulfurizing agent ₂, utilize desulfurization product-ammonium bisulfite to deviate from ammonia in the coke-stove gas then, thereby reach the desulfurization purpose of sinter fume as deamidization.But, in said system, fail effectively to utilize the waste heat of sinter fume discharging, a large amount of steam that will consume in follow-up sulfur removal technology and the preparation of sulphur ammonium need additionally obtain, and waste energy.In addition, adopt the low temperature ammonia-process desulfurization technique in the system, avoid the decomposition of ammonium bisulfite strictly to control desulfurization reaction temperature, thereby very easily produce the dew point corrosion problem, the stability and the reliability of system reduce greatly.

Application number is that the patent of invention of 200910103664.X discloses " a kind of sintering gas purifying and waste heat reclaiming process ", utilize the CFBB transformation of power plant for self-supply of existing steel mill, sinter fume pressurizeed send into after the preheating in the burner hearth and the lime stone reaction, thereby reach the purpose of sintering gas purifying.But adopt the method desulfurization, desulfuration efficiency will be starkly lower than the ammonia process of desulfurization, and the accessory substance utilization rate of desulfurization is not high, can produce a large amount of carbon dioxide in the burner hearth combustion process simultaneously, causes secondary pollution, does not meet current low-carbon economy requirement.

Summary of the invention

The purpose of this utility model just is to overcome above-mentioned defective, designs a kind of sintering gas purifying system based on the heat pipe heat recovery technology.

The technical solution of the utility model is:

Based on the sintering gas purifying system of heat pipe heat recovery technology, its major technique is characterised in that sintering machine is communicated with the heat pipe waste-heat recovery device, and the heat pipe waste-heat recovery device is communicated with electric cleaner, air-introduced machine, damper, booster fan to desulfurizing tower; Desulfurizing tower is communicated with damper, heat-exchanger rig to chimney; The coal gas interface is set in the absorption tower, and the absorption tower is communicated with storage ammonia case, transfers the ammonia case to desulfurizing tower; Desulfurizing tower communication loop liquid pool; The circulation liquid pool is communicated with filter press, and filter press is communicated with sintering machine; The circulation liquid pool is communicated with oxidation pond, filter, multiple-effect crystallizing evaporator, stiff jar, centrifugal separator to drying machine; Oxidation fan communication loop liquid pool; The heat pipe waste-heat recovery device is connected with heat-exchanger rig, absorption tower, multiple-effect crystallizing evaporator and drying machine respectively.

The sintering gas purifying system based on the heat pipe heat recovery technology that the utility model proposes mainly comprises four part process systems in its technical solution:

1. heat pipe residual neat recovering system: recycling sintering circuit secondary energy sources, adopt advanced person's heat pipe heat recovery technology efficiently, the low-grade exhaust sensible heat that is produced at sintering circuit back segment ring cooler, be that the tow taste heat of central cooler rear portion below 250 ℃ carries out used heat and utilize, do not influence the high-grade energy that the anterior delivery temperature of ring cooler can reach about 450 ℃ and recycle technology.The waste heat heat that is reclaimed can be used for producing steam to be used for desulfurization and the preparation of sulphur ammonium, and the while can add the smoke evacuation flue gas behind the thermal purification, avoids dew point corrosion.

2. desulfurizing agent generates (ammonia is washed in coking) system: the bottom of the coke-stove gas self-absorption tower that comes out from coke oven enters, and coal gas contacts with the phosphoric acid solution of circulated sprinkling at Ta Nei, and the NH3 in the coal gas is absorbed by solution.Coke-stove gas after the purification is discharged through top, absorption tower.Rich solution is pumped circulated sprinkling in tower with pump at the bottom of the tower behind the suction ammonia, and therefrom extracts a certain amount of rich solution to desorption system continuously out and regenerate.

3. sintering desulfuration system: the flue gas of drawing from the outlet of sintering machine air-introduced machine, after the booster fan supercharging, in desulfurizing tower, contact, fully after the reaction with the ammoniacal liquor of washing ammonia from coke-stove gas, flue gas after being purified drains into atmosphere through the exhaust pass at desulfurizing tower middle part by chimney.For guaranteeing under any operating mode, the flue-gas temperature of chimney breast 〉=80 ℃, the Steam Heating that system utilizes sintering waste heat to reclaim to produce purifies the back flue gas and is higher than dew-point temperature to guarantee exhaust gas temperature.

4. desulfurizing byproduct generation system: with contain the ammonium sulfurous solution that sulfur dioxide sinter fume reaction back generates and go out tower from the desulfurizing tower bottom, behind cyclone sediment, supernatant enters the oxidation of circulation liquid pool aeration, make heavy metal ion wherein form carbonate deposition, and oxidation part ammonium sulfite, circulation fluid circulates in circulating pump pumps into desulfurizing tower.After treating that ammonium sulfate concentrations in the pond reaches certain value, extract pump depth of drive oxidation pond by the sulphur ammonium, fully oxidation, the solution after separating enter the sulphur ammonium as ammonium sulfate liquor and extract workshop section.Ammonium sulfate liquor forms the ammonium sulfate finished product after handling through crystallizing evaporator, stiff jar, centrifugal separator and vibration fluidized bed drying.

The scheme that the utility model proposes is compared with other technologies has very significantly advantage:

1. make full use of the residual heat resources of sintering circuit, add waste-heat recovery device, energy-saving effect is remarkable, further reduces operating cost.Waste-heat recovery device adopts maturation hot pipe technique efficiently, its heat transfer efficiency height, and dependable performance, the investment payback time is short;

2. adopt the high temperature ammonia-process desulfurization technique, reaction temperature is not subjected to the influence of intermediate product, has reduced the generation of apparatus dew point corrosion to a great extent;

With the waste gas ammonia in the coke-stove gas and the sulfur dioxide in the sinter fume as the raw material of producing ammonium sulfate (desulfurizing byproduct), both save the expense of outsourcing desulfurizing agent, and changed the traditional sulfuric acid of coking again and washed ammonia process, saved the expense of outsourcing sulfuric acid, the treatment of wastes with processes of wastes against one another becomes useless in fertile;

4. this programme is the low carbon technique of standard, no CO ₂Secondary pollutions such as discharging, the huge CO that is produced than the desulfurization of calcium method ₂(desulfurization produces CO for 1 ton to exhaust emission ₂0.7 ton), more meet the low-carbon economy general requirement of present reply climate change.

Description of drawings:

Fig. 1---be system schematic of the present utility model.

Among Fig. 1, sintering machine 1, heat pipe waste-heat recovery device 2, electric cleaner 3, air-introduced machine 4, damper 5, booster fan 6, chimney 7, heat-exchanger rig 8, desulfurizing tower 9 is transferred ammonia case 10, storage ammonia case 11, absorption tower 12, coal gas interface 13, filter press 14, circulation liquid pool 15, oxidation fan 16, oxidation pond 17, filter 18, multiple-effect crystallizing evaporator 19, stiff jar 20, centrifugal separator 21, drying machine 22, ammonium sulfate finished product 23.

The specific embodiment:

The operation principle of the sintering flue gas ammonia method desulfurizing that the utility model adopted is:

With ammonia spirit as absorption liquid, the SO in the sinter fume ₂With the ammoniacal liquor reaction, generate ammonium sulfite solution.Ammonium sulfite solution reaches the finite concentration rear oxidation, be condensed into ammonium sulfate is recovered.The main chemical reactions formula is as follows:

2NH ₃·H ₂O+SO ₂→(NH ₄) ₂SO ₃

(NH ₄) ₂SO ₃+1/2O ₂→(NH ₄) ₂SO ₄

As shown in Figure 1:

In the utility model, sintering machine 1 is communicated with heat pipe waste-heat recovery device 2, and heat pipe waste-heat recovery device 2 is communicated with electric cleaner 3, air-introduced machine 4, damper 5, booster fan 6 to desulfurizing tower 9; Desulfurizing tower 9 is communicated with damper 5, heat-exchanger rig 8 to chimney 7; Coal gas interface 13 is set in the absorption tower 12, and absorption tower 12 is communicated with storage ammonia case 11, transfers ammonia case 10 to desulfurizing tower 9; Desulfurizing tower 9 communication loop liquid pools 15; Circulation liquid pool 15 is communicated with filter press 14, and filter press 14 is communicated with sintering machine 1; The circulation liquid pool is communicated with oxidation pond 17, filter 18, multiple-effect crystallizing evaporator 19, stiff jar 20, centrifugal separator 21 to drying machine 22, goes out ammonium sulfate finished product 23; Oxidation fan 16 communication loop liquid pools 14; Heat pipe waste-heat recovery device 2 is connected with heat-exchanger rig 8, absorption tower 12, multiple-effect crystallizing evaporator 19 and drying machine 22 respectively.

The utility model illustrates in working order:

After sinter fume at first comes out from sintering machine 1, deliver to heat pipe waste-heat recovery device 2 through the insulation flue and carry out waste heat recovery, and make the steam generator of heat pipe waste-heat recovery device 2 produce heat-exchanger rig 8, absorption tower 12, multiple-effect crystallizing evaporator 19 and drying machine 22 needed steam; Sinter fume after the cooling is delivered to electric cleaner 3 through the insulation flue and is carried out dedusting, through air-introduced machine 4 is delivered to booster fan 6 pressurizations by damper 5 after, enters and carries out desulphurization reaction in the desulfurizing tower 9 then; Flue gas is delivered to damper 6 through the exhaust pass at desulfurizing tower 9 middle parts after desulfurizing tower 9 internal reaction desulfurization, drain into atmosphere by chimney 7 behind heat-exchanger rig 8 heat temperature raisings.

Enter from the coal gas interface 13 of coke-stove gas self-absorption tower 12 bottoms that coke oven comes out, in absorption tower 12, contact, wash ammonia through phosphoric acid and produce desulfurizing agent ammoniacal liquor with the phosphoric acid solution of circulated sprinkling; For the ammoniacal liquor quality of guaranteeing that deamination forms, must filter removal impurity to the resident liquid in 12 bottoms, absorption tower, rich solution is pumped to absorption tower 12 with pump and is recycled at the bottom of 12 towers of absorption tower; The absorption tower required steam of 12 reactions is provided by heat pipe waste-heat recovery device 2; Coke-stove gas is washed the desulfurizing agent ammoniacal liquor that ammonia produces and is stored in the storage ammonia case 11, with after after transferring ammonia case 10 to adjust pH and concentration, send into and carry out desulphurization reaction in the desulfurizing tower 9.

Go out tower with the ammonium sulfurous solution that contains sulfur dioxide sinter fume reaction back generation from desulfurizing tower 9 bottoms, behind cyclone sediment, supernatant enters the 15 aeration oxidations of circulation liquid pool, provide the sufficient amount of oxygen reaction by oxidation fan 16, make heavy metal ion wherein form carbonate deposition, and oxidation part ammonium sulfite; Precipitation is delivered to filter press 14 by turbid liquid pump and is compressed to clod, returns in the sintering machine 1 and utilizes; Circulation fluid circulates in circulating pump pumps into desulfurizing tower 9, treat that ammonium sulfate concentrations in the pond reaches certain value after, extract pump by the sulphur ammonium and squeeze into oxidation pond 17, fully oxidation, the solution after separating enter the sulphur ammonium as ammonium sulfate liquor and extract workshop section; Ammonium sulfate liquor forms ammonium sulfate finished product 23 outputs after handling through filter 18, multiple-effect crystallizing evaporator 19, stiff jar 20, centrifugal separator 21 and drying machine 22.Multiple-effect crystallizing evaporator 19 and drying machine 22 required steam in service are provided by heat pipe waste-heat recovery device 2.

The vapor portion that is produced by heat pipe waste-heat recovery device 2 is used to provide absorption tower 12 interior satisfied operations required; part is used to provide multiple-effect crystallizing evaporator 19 and drying machine 22 to move required; part is used to feed that heat-exchanger rig 8 heats flue gas after being purified so that its temperature is higher than dew-point temperature, and the generation of effectively avoiding dew point corrosion is with protection chimney 7.

Claims

1. based on the sintering gas purifying system of heat pipe heat recovery technology, it is characterized in that sintering machine is communicated with the heat pipe waste-heat recovery device, the heat pipe waste-heat recovery device is communicated with electric cleaner, air-introduced machine, damper, booster fan to desulfurizing tower; Desulfurizing tower is communicated with damper, heat-exchanger rig to chimney; The coal gas interface is set in the absorption tower, and the absorption tower is communicated with storage ammonia case, transfers the ammonia case to desulfurizing tower; Desulfurizing tower communication loop liquid pool; The circulation liquid pool is communicated with filter press, and filter press is communicated with sintering machine; The circulation liquid pool is communicated with oxidation pond, filter, multiple-effect crystallizing evaporator, stiff jar, centrifugal separator to drying machine; Oxidation fan communication loop liquid pool; The heat pipe waste-heat recovery device is connected with heat-exchanger rig, absorption tower, multiple-effect crystallizing evaporator and drying machine respectively.