CN1523266A - Process and apparatus for erasing fly ash containing dioxin of refuse burning boiler by incineration - Google Patents

Process and apparatus for erasing fly ash containing dioxin of refuse burning boiler by incineration Download PDF

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CN1523266A
CN1523266A CNA031039820A CN03103982A CN1523266A CN 1523266 A CN1523266 A CN 1523266A CN A031039820 A CNA031039820 A CN A031039820A CN 03103982 A CN03103982 A CN 03103982A CN 1523266 A CN1523266 A CN 1523266A
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fly ash
calcining
burner
ash granule
deduster
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CN100494780C (en
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徐宝安
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Abstract

The present invention relates to a method and equipment for calcining and cleaning fly ash containing dioxine produced by refuse incineration boiler. It is characterized by that on the refuse incineration boiler a rotary calcining furnace for calcining fly ash containing dioxide poison is mounted, and said rotary calcining furnace is formed from burner, rotary calcining chamber, fly ash granules inlet, cooling air inlet, flue gas outlet, air inlet, fly ash granules outlet, cooling fan, separation dust remover, heat-insulating breeching, supporting mechanism, transmission mechanism, refuse incineration boiler, fly ash granules forming machine and conveyer device, etc. Said invention also provides their assembly structure and its application.

Description

A kind of calcining burning boiler that removes rubbish contains the method and the device of dioxin flying dust
The present invention relates to a kind of calcining burning boiler that removes rubbish and contain the method and the device of dioxin flying dust, belong to field of environment protection.
At present, known garbage burning boiler can produce a large amount of flying dusts that contains the dioxin poisonous substance, and the dioxin poisonous substance is difficult to decompose under normal temperature condition, and this poisonous substance has seriously formed second environmental pollution.
The condition that produces dioxin in waste incineration is: (1) combustion instability; (2) combustion temperature in hearth is inhomogeneous; (3) ignition temperature<850 ℃; (4) metal catalytic.
Though the fluidized bed garbage combustion boiler is the superior burning mode of a kind of combination property, especially be fit to the characteristics that China's rubbish is low with the seasonal variations calorific value, composition is complicated.Fluidized bed refuse incinerator adopts quartz sand as heat carrier, and amount of stored heat is big, and combustion stability is good, and combustion reaction temperature is even.The fluidized bed combustion temperature has effectively been contained the existence of dioxin in ashes between 850 ℃-950 ℃.Yet, but can not stop dioxin synthetic in the intrasystem later stage of combustion furnace.
At present, the general method that dioxin produces in the combustion furnace system that prevents mainly contains following measure:
The growing amount of PCDD/Fs when 1. suppressing burning
To grate incinerator, adopt " 3T " technology, that is: 1) improve furnace temperature (>850 ℃); 2) send into auxiliary air in the high-temperature region, fully mix the enhancing turbulivity: 3) prolong gas time of staying of high-temperature region (>2s) etc.Owing to improved situation, make rubbish completing combustion, reduced the growing amount of CO, imperfect combustion product P ICs and precursor, thus the growing amount of PCDD/Fs when having suppressed burning.Certain garbage burning factory of Japan adopts " 3T " technology to make the discharge capacity of the PCDD/Fs of furnace outlet place from 33.1ng/m 3Dropped to 6.1ng/m 3, effect is fairly obvious.To newly-built garbage burning factory, should select for use the recirculating fluidized bed more advanced to burn combustion furnace (CFBB) system than " 3T " technology.
Suppressing the generation of PCDD/Fs also can carry out from other two aspects: 1. stop chlorination process (comprise spray ammonia, add method such as sulphur); 2. prevent biaryl synthetic (poisoning catalyst) with methods such as spray ammonia.When refuse thermal value was low, it was combustion-supporting to throw coal, guaranteed the completing combustion of the stable and rubbish of combustion position, and the sulphur in the combustion-supporting coal suppresses the unique effect of the generation of PCDD/Fs in addition when burning simultaneously.
2. adopt the PCDD/Fs flue gas processing device
According to the formation mechanism of PCDD/Fs, in the stove and the PCDD/Fs that generates in the flue mainly with solid-state form attached to the flying dust surface, can remove most of PCDD/Fs with the mechanical means that high-efficiency dust remover is set.Discover, the effect of sack cleaner removal PCDD/Fs is best, and electrostatic precipitator to the collecting effect of fine particle not as sack cleaner, and its optimum working temperature is the synthetic optimum temperature of PCDD/Fs just, thereby can not use electrostatic precipitator in garbage burning factory.For further reducing the discharging of PCDD/Fs, can reduce exhaust gas temperature, PCDD/Fs condensation in the gas phase is attached in the flue gas on the molecule, catch with bag filter again, can receive good effect.Bag filter is to make filter cloth by glass fibre combustion tail gas is filtered, and reaches dedusting and absorption PCDD/Fs material.Because soot dust granule forms fine and close thin layer at the filter cloth surface sediment, so the dust clearance of bag filter generally all very high (can reach about 98%), the particle that particle diameter is very little also can be removed.Cloth-bag type filters because the high-temperature capability of glass fibre limits, and exhaust temperature generally must be controlled at about 250 ℃, is lower than the synthesis temperature again of dioxin.Use cloth envelop collector to remove the dioxin that discharges in the waste incineration, need take comprehensive control countermeasure, comprise: 1) incinerator inner control dioxin generates, and with enough high temperature, good turbulent flow, sufficient dwell time, exhaustive oxidation decomposes refuse and brings the interior dioxin of stove into; 2) use the chemical method of spraying ammonia to reduce the generation of PCDD/Fs.Spray into ammonia before the combustion furnace tube bank after, on the one hand, ammonia is stronger than the binding ability of precursor and chlorine with the binding ability of chlorine, has reduced precursor and chloropexia and has generated PCDD/Fs; The measure that sprays into the activated carbon powder is set before cloth envelop collector in addition, can further adsorbs PCDD/Fs, the emission control that can make PCDD/Fs is at 0.1ng/m 3Below, can also remove metals such as mercury; Have again, metals such as the copper in the flying dust are the catalyst of the synthetic PCDD/Fs of precursor, in precursor is synthetic, play a decisive role, and amine and ammonia are the most effective catalysis poison control centres to metallic catalysts such as copper, can make metallic catalysts such as copper lose catalytic action, thereby spray ammonia can slow down even stop the synthetic PCDD/Fs of precursor, the growing amount of minimizing PCDD/Fs.
3. adopt the CFBC stove that adds ancillary method
The method of control PCDD/Fs is for improving burning condition, throw the combustion-supporting operation of coal and adopting the PCDD/Fs flue gas processing device.
The main feature of CFBC stove (CFBB) is the rubbish suspension combustion, and bed material thermal capacity is big in the stove, and fuel tolerance is good, the more low-calorie rubbish of burning, and temperature is even in the stove, and the time of staying is long, flameholding, abundant, the gas oxious component of generation is minimum.In the circulating fluidized bed incinerator that adopts crude waste, it is combustion-supporting to throw coal on a small quantity, can reach to reduce PCDD/Fs to greatest extent, and the growing amount of HCl etc. can reach the investment that reduces the tail flue gas treatment facility.Adopt the discharge capacity of PCDD/Fs after the above-mentioned measure can be reduced to the level of security of environmental sound fully.
Can be removed by spray activated carbon in exhaust gas cleaner for a spot of dioxin in the flue gas, be guaranteed to reach discharging standards.Through behind the above-mentioned all kinds of vent gas treatment technique devices, the discharge capacity of PCDD/Fs can be reduced to 0.1ng-TEQ/Nm 3This is an internationally recognized secure data, and the tail gas that it will make the back of burning away the refuse produce is harmless.
Yet, still contain the dioxin poisonous substance in the flying dust of collection, still can cause serious pollution to environment.
The purpose of this invention is to provide a kind of calcining burning boiler that removes rubbish and contain the method and the device of dioxin flying dust, it not only can thoroughly remove the dioxin in the flying dust, and small investment, and it is low to consume energy, safety and environmental protection.
The object of the present invention is achieved like this: a kind of calcining burning boiler that removes rubbish contains the method and the device of dioxin flying dust, compound being equipped with calcined the rotary calcining stove that contains dioxin poisonous substance flying dust on garbage burning boiler, and the structure of rotary calcining stove is made up of burner, rotation calcining compartment, fly ash granule import, cooling air import, exhanst gas outlet, air intlet, fly ash granule outlet, cooling blower, separation deduster, insulation flue, supporting mechanism, transmission mechanism, garbage burning boiler, fly ash granule make-up machine, conveying device etc.; The employed body of heater of calcining furnace mainly is made up of three parts, and a part is the burning feed stage, and another part is rotation calcining section, and third part is the dedusting cooling section; It is the high-temperature flue gas that the burning of burner body of heater produces, the fly ash granule that mixed conveying device feeds, introduce in the rotation calcining compartment, the fly ash granule that is passed to the rotation calcining compartment is carried out high-temperature calcination, by the cyclone separator of installing at rotation calcining compartment afterbody, the fly ash granule of calcining and the part flying dust in the flue gas to be collected by cyclone dust collectors, flue gas is introduced into garbage burning boiler, cyclone dust collectors are equipped with air-cooling apparatus, the part flying dust in cooling fly ash granule and the flue gas and with its discharge; Its temperature control can keep the weighing apparatus of cigarette temperature fixed by control fuel input and the air amount of feeding, rotation calcining compartment body tilts to install at a certain angle, after containing the flying dust calcining of dioxin, collect by cyclone dust collectors, flue gas after the calcining is connected in the burner hearth of garbage burning boiler by utilidor, fly ash granule after slag and the calcining can cool off with air by heat exchanger, or cool off by water and steam, the capacity of this calcining burner reaches 850 ℃~1050 ℃ that no dioxin exists and is as the criterion to satisfy calcining fly ash granule temperature.
Burner can be conventional fuel oil, combustion vapour burner, can be coal-fired combusting device, wherein, and coal-fired combusting device or coal-powder boiler or material casting formula chain furnace or fluid bed furnace or Circulation fluidized-bed furnace etc.; The fuel of burner can be fuel oil, combustion vapour, coal, needs according to the various type of furnaces can be provided with the water-cooled or the cooling device of air cooling on stove, flue-gas temperature is remained in 850 ℃~1050 ℃ scopes, smoke evacuation is directly introduced in the garbage burning boiler by rotation calcining compartment, separation deduster, utilizes the cleaner and the fume extractor operation of garbage burning boiler.
The rotation calcining compartment is the cylinder that steel plate is made, liner thermal insulation fire-resistant material, by the chamber head that burner is connected with the fly ash granule conveyer, the chamber tail that is connected with deduster, partly form with the cylinder that has transmission device etc., the size of its inclination is generally 2%~5% of rotation calcining compartment body length overall.
The fly ash granule import is installed on burner apparatus and rotation calcining compartment junction, and its outlet can be transported to fly ash granule in the rotation calcining compartment.
The cooling air import of air-cooling apparatus be located at respectively on the burner and deduster on, to slag and fly ash granule heat exchange cooling, combustion-supporting respectively to burner.
Exhanst gas outlet is placed in and separates on the deduster, is connected with garbage burning boiler by the insulation flue, and the CFBC device is provided with the front and back stages separation cyclone scrubber, and exhanst gas outlet is placed on the back level separation deduster.
Separating deduster is made up of housing, thermal insulation fire-resistant material, flue dust import, exhanst gas outlet, fly ash granule outlet, air cooled heat exchanger, cooling air import etc., separate deduster and be installed in rotation calcining compartment tail end, combine with the rotation calcining compartment, after the flue dust of burner and the generation of rotation calcining compartment enters and separates deduster separation dedusting, system enters garbage burning boiler by flue gas exhaust, and the fly ash granule of deduster separated and collected is discharged through air cooled heat exchanger cooling back.
The fly ash granule make-up machine is the flying dust of deduster dischargings at different levels to be processed by conventional universal machine make it form fly ash granule, is convenient to carry, calcines, separates dedusting.
The conveying device import is connected with the fly ash granule make-up machine, and outlet is connected with rotation calcining compartment material inlet on the burner apparatus, can be conventional belt conveyor or other conveying device.
Supporting mechanism, transmission mechanism be with the rotation calcining compartment by rotatable supporting mechanism positioning supports on pedestal, make the rotation calcining compartment according to the rotation of certain rotating speed by transmission mechanism.
Feed intake and the fuel of downflow type rotary furnace enter at same end, burn back gas and solid residue, discharge its technological process such as Fig. 2 at the stove other end.
The fluidized bed coal combustion furnace is the box hat vertical cylindrical heater, inner lining refractory block and insulating brick, and the stove bottom is provided with airflow-distribution board with holes, is covered with certain thickness layer carrier particle on the distribution grid.The feeding high-pressure hot air blows afloat the carrier on the plate below the plate, it is suspended in presents fluidized state in the burner hearth.Use coal feeder this moment, with the coal input, mixes with the carrier that seethes with excitement and to burn.The thin ash that burnouts is discharged with flue gas, enters the rotation calcining compartment fly ash granule is calcined, and enters garbage burning boiler after deduster captures.From this body structure of stove, there is not mechanical running part, simple in structure, easy to maintenance.And technological operation is required higher than common mechanical.
The characteristics of fluidized bed incinerator:
(1) the waste residue sand that is fluidized state in stove evenly disperses, and therefore, waste residue and thermal current contact area are big, and the rate of heat transfer height is so unit hearth area treating capacity (can reach 150~200kg/m greatly 3H), install Miniaturizable thus, reduce floor space;
(2) because the interior temperature of fluid bed can remain on more than 850 ℃, good with coal fluidized bed combustion performance, noncoking is as the criterion, and has reduced investment;
(3) because very big (168~252) 10 of this furnace volume's thermic load 4KJ/m 3H), [(40~60) * 10 4Kcal/m 3H] thus allow amplitude bigger to the variation of the property quality and quantity of coal, the equal incendivity of the coal that various moisture content are big.The stove amount of stored heat is big simultaneously, and cooling starts easily slowly after the blowing out, and intermittently operated also can;
(4) strong to fuel tolerance, because of non-torch burning, so but the burning inferior coal material;
(5) flue gas of Pai Chuing enters garbage burning boiler with heat absorption, good energy-conserving effect.
This stove weak point: carrier and waste material need fluidisation, and higher air pressure be arranged, and power consumption is big.
Because the combustion system of fluid-bed combustion furnace uniqueness, it is 850 ℃~950 ℃ material bed that the bottom of fluid-bed combustion furnace is remaining very thick temperature, it is equivalent to a very big high-temperature heat accumulation pond, and initiate fuel only accounts for about 5%, initiate fuel mixes mutually with several high-temperature materials that decuple oneself immediately, and any burnt fuel that is difficult to is caught fire rapidly.Because fuel circulates up and down in fluid-bed combustion furnace and seethes, the time of its stop is longer, for the various fuel that are difficult to after-flame provide the burning time that is enough to guarantee its after-flame.Make fluid-bed combustion furnace can use the very inferior fuel of quality, even dust burdening reaches 70%, caloric value only is that 2%~3% anthracite and phosphorus content all can obtain good combustion at the slag more than 15% for the fuel of 4200kJ/kg and volatile matter only.
Because initiate fuel fire condition, burning condition and after-flame condition are fine in the fluid bed, combustion intensity is very high, belongs to the low-temperature reinforcement burning, and its volume heat load can reach 1.7~2.1MW/m 3, be 10 times of coal-powder boiler.So the fluid-bed combustion furnace furnace volume is less, metal consumption and cost of equipment are reduced.
The fluidized bed combustion boiler ash sediment has the advantages that low temperature is grilled thoroughly, and is convenient to comprehensive utilization, and its lime-ash has been used to make construction material, extracts chemical products and has been used as farmland fertilizer.
Because fuel fire and burning condition are fine, because of reducing, fire box temperature do not put out a fire when worrying underload, so load adjustment ability is fine, fluid-bed combustion furnace can normally operation in 25%~110% load range.
The fluid-bed combustion furnace power consumption is big, burns under fluidized state in order to make fuel, raw coal is broken into the particle below the 8mm and adopt high-pressure blowing-in, makes the power consumption of fluid-bed combustion furnace than coal-powder boiler height.
The CFBC stove is a kind of novel combustion furnace that improves and grow up on the fluid-bed combustion furnace basis of (claiming bubbling bed or fluidized bed combustion stove again).The CFBC stove kept whole advantages of fluid-bed combustion furnace, and avoided eliminating the thermal efficiency that fluid-bed combustion furnace exists low, be difficult to shortcoming such as maximization.
It is identical with fluid-bed combustion furnace that CFBC siege material is in fluidized state, the main distinction of the former with the latter is that the former fluidizing velocity is higher, material is dense in the furnace outlet flue gas, a large amount of materials is separated the back foldback by the material separator of furnace outlet and melts down thorax, promptly has a large amount of materials to circulate between burner hearth and material separator.
Though it is bigger that the bed material of fluidized bed combustion stove is in the fluidized state coefficient of expansion, because the fluidizing velocity of fluid-bed combustion furnace is lower, is about 1~3m/s, can more clearly see the interface of the bed of material.Because the material movement in the following bed of material in interface is fierce fluidized state, and material is dense.The stream China speed of CFBC stove is higher, is about 4~5m/s, and the material operation is more violent, has been hard to tell the interface of the bed of material this moment, and the bed material only is divided into the emulsion zone of bottom and the dilute-phase zone on top.Because the material concentration of dilute-phase zone is very low.
CFBC stove furnace outlet is provided with efficient material separator, with a large amount of materials that carry in the furnace outlet flue gas, comprising coal grain, coke grain, separation back foldback melts down thorax and burns, fuel prolongs greatly at residing time in furnace, this makes heat loss due to combustibles in refuse descend greatly, and the combustion furnace thermal efficiency obviously improves.
Not only temperature is very high for the flue gas of material separator inlet, and the concentration of material is the hundred times of flying dust concentration in the coal-powder boiler flue gas in the flue gas, therefore, when material separator does not adopt the steel construction of working medium cooling, inwall has the high temperature resistant and wear-resisting material of one deck, and one deck refractory material and layer of insulation material are arranged, to prolong the life-span of separator, reduce the steel temperature and reduce heat loss.
The wind-powered machine chain stoker boiler is thrown coal based on machinery, adopts morely in China, is called for short chain stoker boiler.
Spreader feeder is shed coal in the process of flight, the coal that particle is tiny has taken fire and has entered flue gas, and the coal particle of falling on the fire grate is bigger, and the coal grain is through sorting in the burner hearth, the granularmetric composition that drops on each section of fire grate is relatively more consistent, helps reducing furnace grate ventilation resistance and tissue burning.
Coal is in shedding the process of flight, and the moisture in the coal is dried and the part volatilization is separated out, and not only improves the ignition condition of coal, and part of fuel takes fire, the coking capacity of coal reduces, and is difficult for forming big coke button on fire grate, has reduced the workload that pokes fire of flowing resistance.Therefore, the coal that the coking capacity that water content is bigger is strong also can obtain good burning in chain stoker boiler.
Coal drops on after shedding on the very high coke layer of the temperature of burning or will after-flame, the top of coal is by burner hearth thermal-flame and gas radiation heating, the bottom of coal is heated by the coke layer of high temperature, the ignition condition of coal is very good, burning is fierce, therefore, can the relatively poor coal of burning coal, the calorific intensity of fire grate also can improve.
The coal seam of chain stoker boiler is thinner, and it is very strong again to burn, and part of fuel is burnt in the air at burner hearth, and the heat of bed savings is less, and the thermal inertia of stove is less, the Load Regulation sensitivity.
Though chain stoker boiler has above-mentioned various advantage, also has some shortcomings.After particulate in the coal is shed, taken away by flue gas easily.Because of the diameter of particulate is bigger than coal dust again,, cause heat loss due to combustibles in refuse to increase so the phosphorus content in the flying dust is very high.Compare with chain furnace, the spreader feeder coal is than by coal lock coal, and equipment is complicated, and maintenance workload increases, and moisture in coal is when too high, the easily long-pending coal of spreader feeder coal bunker, throw the coal blade throw do not produce coal or work undesired.
In sum, the advantage of chain stoker boiler is more than shortcoming.Chain stoker boiler has kept the stable grate of having of chain furnace basically, can guarantee not flame-out advantage, overcomes to a certain extent again and shortcoming and defect that perfect chain furnace exists.
The present invention is by the fly ash granule calcine technology, to discharge fume and be connected with garbage burning boiler, realized elimination flying dust dioxin poisonous substance composition, simultaneously, saved the investment of the energy and system to greatest extent, incineration of refuse flyash has been become by dangerous goods can be for the raw material that utilize, for the secondary pollution problem of refuse-burning plant flying dust has been found out a good solution.This technical equipment is simple, and is rational in infrastructure, invests extremely low.
The present invention is further described below in conjunction with drawings and Examples.
Fig. 1 is the structural representation of apparatus of the present invention;
Fig. 2 is a downflow type rotary furnace process chart.
Among the figure: 1 chimney, 2 superheaters, 3 convection type combustion furnaces, 4 air preheaters, 5 dedusters, 6 air-introduced machines, 7 deduster removing ash pipelines, 8 air preheater removing ash pipelines, 9 convection type combustion furnace removing ash pipelines, the female pipe of 10 defeated ashes, 11 grey current control are sent out, 12 external heat exchanger, 13 air, 14 heaters, 15 ash discharges, 16 fluidization airs, 17 auxiliary air airducts, 18 coals and lime stone, 19 ash discharges, 20 air preheaters, 21 ash particle make-up machines, 22 ash particles connect bucket, 23 ash particle rolls, 24 airducts, 25 blower fans, 26 primary air airducts, 27 ash particle ash pipelines, 28 calcining combustion furnace removing ash pipelines, 29 fluidized-bed layers, 30 fuel inlets, 31 fluid bed furnace chambers, 32 fluid bed cyclone dust collectors, 33 bodies of heater, 34 transition conduit, 35 calcining flue gas mouths, 36 ash particle dispensers, 37 rotation calcining furnaces, 38 rotary actuators, 39 calcining furnace chambers, 40 revolving burners support, 41 seal retainer, 42 cyclone dust collectors, 43 transition smoke exhaust pipes, 44 garbage burning boilers, 45 bodies of heater, 46 changeover portions, 47 garbage incinerator cyclone dust collectors, 48 incinerator smoke pipes
In Fig. 1, the dust that garbage burning boiler 44 produces is discharged after air preheater 4 and deduster 5 two-stage dedustings, both flying dusts are mixed, wet ashes of collecting with other devices mix the back by a position mechanical 23 extrusion modlings that are shaped, by conveying device 27,36 are transported to the smoke outlet of the CFBC stove 33 with burner, mix with the flue gas that CFBC stove 33 after the dedusting produces, enter calcining in the rotation calcining furnace 37, under 850 ℃~1050 ℃ high temperature, the high flue gas that burner produces makes its thorough decomposition with the dioxin combustion oxidation in the fly ash granule.Because kiln has constant slope, fly ash granule calcining uniformly for a long time in stove with the need calcining, and progressively move the afterbody flow to rotary kiln, enter the air preheater 20 that sinks to its bottom behind the cyclone dust collectors 42 and add behind the hot-air self temperature and reduce and discharge.High-temperature flue gas through cyclone dust collectors 42 dedustings enters into garbage burning boiler 44, the heat exchanger in the heating boiler by transition smoke evacuation utilidor 43.The high-temperature flue gas that has flying dust that produces return flow burner after fluid bed cyclone dust collectors 32 dedustings of boiler configuration carries out circulating combustion.

Claims (10)

1, a kind of calcining burning boiler that removes rubbish contains the method and the device of dioxin flying dust, compound being equipped with calcined the rotary calcining stove that contains dioxin poisonous substance flying dust on garbage burning boiler, and the structure of rotary calcining stove is made up of burner, rotation calcining compartment, fly ash granule import, cooling air import, exhanst gas outlet, air intlet, fly ash granule outlet, cooling blower, separation deduster, insulation flue, supporting mechanism, transmission mechanism, garbage burning boiler, fly ash granule make-up machine, conveying device etc.; It is characterized in that: the employed body of heater of flying ash in electric power plant calcining furnace mainly is made up of three parts, and a part is the burning feed stage, and another part is rotation calcining section, and third part is the dedusting cooling section; It is the high-temperature flue gas that the burning of burner body of heater produces, the fly ash granule that mixed conveying device feeds, introduce in the rotation calcining compartment, the fly ash granule that is passed to the rotation calcining compartment is carried out high-temperature calcination, by the cyclone separator of installing at rotation calcining compartment afterbody, the fly ash granule of calcining and the part flying dust in the flue gas to be collected by cyclone dust collectors, flue gas is introduced into garbage burning boiler, cyclone dust collectors are equipped with air-cooling apparatus, the part flying dust in cooling fly ash granule and the flue gas and with its discharge; Its temperature control can keep the weighing apparatus of cigarette temperature fixed by control fuel input and the air amount of feeding, rotation calcining compartment body tilts to install at a certain angle, after containing the flying dust calcining of dioxin, collect by cyclone dust collectors, flue gas after the calcining is connected in the burner hearth of garbage burning boiler by utilidor, fly ash granule after slag and the calcining can cool off with air by heat exchanger, or cool off by water and steam, the capacity of this calcining burner reaches 850 ℃~1050 ℃ that no dioxin exists and is as the criterion to satisfy calcining fly ash granule temperature.
2, burner according to claim 1 is characterized in that: burner can be conventional fuel oil, combustion vapour burner, it can be coal-fired combusting device, wherein, coal-fired combusting device or coal-powder boiler or material casting formula chain furnace or fluid bed furnace or Circulation fluidized-bed furnace etc.; The fuel of burner can be fuel oil, combustion vapour, coal, needs according to the various type of furnaces can be provided with the water-cooled or the cooling device of air cooling on stove, flue-gas temperature is remained in 850 ℃~1050 ℃ scopes, smoke evacuation is directly introduced in the garbage burning boiler by rotation calcining compartment, separation deduster, utilizes the cleaner and the fume extractor operation of garbage burning boiler.
3, rotation calcining compartment according to claim 1 is characterized in that: the rotation calcining compartment is the cylinder that steel plate is made, liner thermal insulation fire-resistant material, the chamber head that is connected with the fly ash granule conveyer by burner, the chamber tail that is connected with deduster, partly form with the cylinder that has transmission device etc., the size of its inclination is generally 2%~5% of rotation calcining compartment body length overall.
4, fly ash granule import according to claim 1 is characterized in that: the fly ash granule import is installed on burner apparatus and rotation calcining compartment junction, and its outlet can be transported to fly ash granule in the rotation calcining compartment.
5, the cooling air import of air-cooling apparatus according to claim 1 is characterized in that: the cooling air import of air-cooling apparatus be located at respectively on the burner and deduster on, to slag and fly ash granule heat exchange cooling, combustion-supporting respectively to burner.
6, exhanst gas outlet according to claim 1 is characterized in that: exhanst gas outlet is placed in and separates on the deduster, be connected with garbage burning boiler by the insulation flue, the CFBC device is provided with the front and back stages separation cyclone scrubber, and exhanst gas outlet is placed on the back level separation deduster.
7, separation deduster according to claim 1, it is characterized in that: separate deduster and form by housing, thermal insulation fire-resistant material, flue dust import, exhanst gas outlet, fly ash granule outlet, air cooled heat exchanger, cooling air import etc., separate deduster and be installed in rotation calcining compartment tail end, combine with the rotation calcining compartment, after the flue dust of burner and the generation of rotation calcining compartment enters and separates deduster separation dedusting, system enters garbage burning boiler by flue gas exhaust, and the fly ash granule of deduster separated and collected is discharged through air cooled heat exchanger cooling back.
8, fly ash granule make-up machine according to claim 1 is characterized in that: the fly ash granule make-up machine is the flying dust of deduster dischargings at different levels to be processed by conventional universal machine make it form fly ash granule, is convenient to carry, calcines, separates dedusting.
9, conveying device according to claim 1 is characterized in that: the conveying device import is connected with the fly ash granule make-up machine, and outlet is connected with rotation calcining compartment material inlet on the burner apparatus, can be conventional belt conveyor or other conveying device.
10, supporting mechanism according to claim 1, transmission mechanism, it is characterized in that: supporting mechanism, transmission mechanism be with the rotation calcining compartment by rotatable supporting mechanism positioning supports on pedestal, make the rotation calcining compartment according to the rotation of certain rotating speed by transmission mechanism.
CNB031039820A 2003-02-20 2003-02-20 System for erasing fly ash containing dioxin in refuse burning boiler by incineration Expired - Fee Related CN100494780C (en)

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Cited By (19)

* Cited by examiner, † Cited by third party
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WO2006136105A1 (en) * 2005-06-21 2006-12-28 Institute Of Engineering Thermophysics, Chinese Academy Of Sciences A combined dryer and a method and an equipment for incinerating the wet sludge with the combined dryer
WO2007006218A1 (en) * 2005-07-08 2007-01-18 Institute Of Engineering Thermophysics, Chinese Academy Of Sciences A dryer and a method and an equipment for drying and incinerating wet sludge using circulating fluidized bed with the dryer
CN100402927C (en) * 2004-12-29 2008-07-16 清华大学 Integrated plant of circulating fluid bed type boiler for burnning garbage and purifying tail gas
CN101858599A (en) * 2010-07-12 2010-10-13 常州市三信环保设备有限公司 Externally-packed structure of garbage incinerator
CN102302892A (en) * 2010-12-30 2012-01-04 圣达瀚科技有限公司 Method and system for treating flue gas generated by high temperature waste incinerator by using dual-purpose reactor
CN102425797A (en) * 2011-11-08 2012-04-25 东南大学 Combined cyclone boiler combustion device and device for flying ash fusion
CN102728454A (en) * 2012-06-19 2012-10-17 罗健泉 Pretreatment device for domestic garbage incineration without dioxin being generated
CN102901088A (en) * 2012-08-30 2013-01-30 思安新能源股份有限公司 Boiler and heat utilization system having boiler
CN103982897A (en) * 2014-03-19 2014-08-13 上海欣鼎钢结构件有限公司 Incinerator system
CN104534480A (en) * 2014-12-12 2015-04-22 华西能源工业股份有限公司 CFB (circulating fluidized bed) waste incineration boiler gas-solid separation method
CN105772488A (en) * 2016-04-29 2016-07-20 南京大学 Equipment and method for fluidization chemical stabilization pretreatment for powder solid dangerous waste
CN106903130A (en) * 2017-03-03 2017-06-30 东南大学 A kind of method of the middle firm incineration of refuse flyash heavy metal of warm treatment
CN109724087A (en) * 2017-10-31 2019-05-07 云南蓝澈科技有限公司 A kind of incineration flue gas of household garbage process integrated system
CN110615615A (en) * 2019-09-09 2019-12-27 广东生活环境无害化处理中心有限公司 High and low temperature corrosion resistant enamel material, preparation method and application thereof, and high temperature boiling rotary grate furnace device
CN112212343A (en) * 2020-09-21 2021-01-12 长兴新城环保有限公司 Temperature stability control system of circulating fluidized bed garbage fluidized bed
CN112432183A (en) * 2020-10-23 2021-03-02 清华大学 Waste incineration coupling boiler system
CN114396609A (en) * 2021-12-28 2022-04-26 东方电气集团东方锅炉股份有限公司 System and method for utilizing fly ash of circulating fluidized bed boiler
CN115307148A (en) * 2022-07-29 2022-11-08 昆明理工大学 Pyrolysis gasification combustion is in coordination with electric filtering coupling electrocatalysis tail gas purification pyrolysis device
CN114877344B (en) * 2022-06-02 2024-06-07 天津中材工程研究中心有限公司 System and method for continuously disposing dioxin in fly ash

Cited By (22)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100402927C (en) * 2004-12-29 2008-07-16 清华大学 Integrated plant of circulating fluid bed type boiler for burnning garbage and purifying tail gas
WO2006136105A1 (en) * 2005-06-21 2006-12-28 Institute Of Engineering Thermophysics, Chinese Academy Of Sciences A combined dryer and a method and an equipment for incinerating the wet sludge with the combined dryer
WO2007006218A1 (en) * 2005-07-08 2007-01-18 Institute Of Engineering Thermophysics, Chinese Academy Of Sciences A dryer and a method and an equipment for drying and incinerating wet sludge using circulating fluidized bed with the dryer
CN101858599A (en) * 2010-07-12 2010-10-13 常州市三信环保设备有限公司 Externally-packed structure of garbage incinerator
CN102302892A (en) * 2010-12-30 2012-01-04 圣达瀚科技有限公司 Method and system for treating flue gas generated by high temperature waste incinerator by using dual-purpose reactor
CN102302892B (en) * 2010-12-30 2013-05-22 圣达瀚科技有限公司 Method and system for treating flue gas generated by high temperature waste incinerator by using dual-purpose reactor
CN102425797A (en) * 2011-11-08 2012-04-25 东南大学 Combined cyclone boiler combustion device and device for flying ash fusion
CN102728454A (en) * 2012-06-19 2012-10-17 罗健泉 Pretreatment device for domestic garbage incineration without dioxin being generated
CN102901088A (en) * 2012-08-30 2013-01-30 思安新能源股份有限公司 Boiler and heat utilization system having boiler
CN103982897A (en) * 2014-03-19 2014-08-13 上海欣鼎钢结构件有限公司 Incinerator system
CN104534480A (en) * 2014-12-12 2015-04-22 华西能源工业股份有限公司 CFB (circulating fluidized bed) waste incineration boiler gas-solid separation method
CN105772488A (en) * 2016-04-29 2016-07-20 南京大学 Equipment and method for fluidization chemical stabilization pretreatment for powder solid dangerous waste
CN106903130A (en) * 2017-03-03 2017-06-30 东南大学 A kind of method of the middle firm incineration of refuse flyash heavy metal of warm treatment
CN106903130B (en) * 2017-03-03 2018-12-14 东南大学 A kind of method that medium temperature is heat-treated firm incineration of refuse flyash heavy metal
CN109724087A (en) * 2017-10-31 2019-05-07 云南蓝澈科技有限公司 A kind of incineration flue gas of household garbage process integrated system
CN110615615A (en) * 2019-09-09 2019-12-27 广东生活环境无害化处理中心有限公司 High and low temperature corrosion resistant enamel material, preparation method and application thereof, and high temperature boiling rotary grate furnace device
CN112212343A (en) * 2020-09-21 2021-01-12 长兴新城环保有限公司 Temperature stability control system of circulating fluidized bed garbage fluidized bed
CN112212343B (en) * 2020-09-21 2022-12-23 长兴新城环保有限公司 Temperature stability control system of circulating fluidized bed garbage fluidized bed
CN112432183A (en) * 2020-10-23 2021-03-02 清华大学 Waste incineration coupling boiler system
CN114396609A (en) * 2021-12-28 2022-04-26 东方电气集团东方锅炉股份有限公司 System and method for utilizing fly ash of circulating fluidized bed boiler
CN114877344B (en) * 2022-06-02 2024-06-07 天津中材工程研究中心有限公司 System and method for continuously disposing dioxin in fly ash
CN115307148A (en) * 2022-07-29 2022-11-08 昆明理工大学 Pyrolysis gasification combustion is in coordination with electric filtering coupling electrocatalysis tail gas purification pyrolysis device

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