CN209501213U - A kind of gas cleaning integrated system and aluminium oxide calcining process system - Google Patents

Abstract

The utility model discloses a kind of gas cleaning integrated system and aluminium oxide calcining process system, the flue gas integrated system includes at least gravitational dust collection unit, electric precipitation unit, bag-type dusting unit and denitration unit, the efficiency of dust collection of flue gas is up to 99.95% or more in this way, will to the maximum extent, efficiently carry out gas solid separation, so that nearly all aluminium hydroxide material is all converted to aluminium oxide in roasting main furnace, the waste of material is greatly reduced, and improves the quality of product.And the integrator is high-efficient to flue gas ash removal it is not necessary that revert system (can cancel revert system in the prior art) again is arranged in the subsequent process, greatly simplify system, and filtered outlet smoke dust discharge concentration substantially reduces, flue gas can be directly discharged to external environment, and denitration unit is set to the downstream of afterbody dust removing units, can contain NH while improving the quality of production to avoid what is sprayed into denitration₃Substance aluminium hydroxide material is polluted.

Description

A kind of gas cleaning integrated system and aluminium oxide calcining process system

Technical field

The utility model relates to aluminium oxide calcining technical fields, and in particular to a kind of gas cleaning integrated system and aluminium oxide Roasting technique system.

Background technique

China is Chan Lv big country, aluminum smelting technology industry in Chinese national economy and social development in occupation of critical role, but During aluminum smelting technology, especially aluminium oxide calcining process, flue dust and NO_xDischarge intensity it is larger, in May, 2017, environmental protection It is explicitly pointed out in " the executing the bulletin of the special emission limit of atmosphere pollution about Jing-jin-ji region and surrounding area " of portion's publication, Beijing-Tianjin Multiple industries including coloured in Ji propagation in atmosphere channel city are newly-built and existing enterprise executes atmosphere pollution and especially arranges Put limit value.Currently, country is in the smoke gas treatment for accelerating to start non-electrical domain after thermoelectricity minimum discharge, especially steel, coloured Equal fields, and aluminum smelting technology industry is included within coloured industry.Therefore, it is necessary to be improved to aluminium oxide calcining technique, improve While product quality, to flue dust, NO_xEqual pollutants carry out efficient removal.

Existing process for making alumina generallys use gas suspension calcination technology, and the flue gas generated to the technique is handled So that it meets discharge standard.

Utility model content

The purpose of the utility model is to provide a kind of gas cleaning integrated systems, including shell, along flow of flue gas direction institute Stating enclosure interior successively includes gravitational dust collection unit, electric precipitation unit, bag-type dusting unit and denitration unit；

The gravitational dust collection unit its be internally provided with the weight for making that part solid particle is deposited by self gravity in flue gas Field of force component；

The electric precipitation unit includes the electrod assembly for being used to form dedusting electric field；

The bag-type dusting unit is provided with filter bag；

The denitration unit includes catalyst storage area and the area Pen An, the area Pen An be located at the bag-type dusting unit and Between the catalyst storage area, the nozzle of at least ammonia-gas spraying device is set to the area Pen An；

The gas cleaning integrated system further include be correspondingly arranged in the electric precipitation unit, the bag-type dusting unit and Ash bucket is provided with below the gravitational dust collection unit.

It optionally, further include the dismembyator for being provided with inlet and outlet, the ash bucket includes the first ash bucket and the second ash bucket, First ash bucket corresponds to the electric precipitation unit and the bag-type dusting unit, and second ash bucket corresponds to the gravitational dust collection Unit, the import of the dismembyator are at least connected to the material outlet of second ash bucket, and the outlet of the dismembyator is for being connected to Subsequent technique material input；The dismembyator is internally provided with grinding component, the material for flowing into second ash bucket It is ground into predetermined particle.

Optionally, the enclosure interior is also integrated with auxiliary heat-exchanging pipe, for flowing out the pocket type to the enclosure interior Flue gas before dust removing units and the entrance area Pen An is heated.

It optionally, further include controller and temperature-detecting device, the temperature-detecting device is described auxiliary for detecting inflow It helps low after auxiliary heat-exchanging pipe heating inside the high-temperature medium temperature and the gas cleaning integrated system of heat exchanger tube Warm flue-gas temperature；The controller controls the low-temperature flue gas according to the high-temperature medium temperature and the low-temperature flue gas temperature Temperature is in predetermined denitration temperature range.

In addition, the utility model additionally provides a kind of aluminium oxide calcining process system, including cigarette described in any of the above embodiments Gas purifying integral system, the flue being set between connection aluminium oxide drying unit and aluminium oxide calcining device, the ash The discharge port of bucket is connected to the import of the aluminium oxide calcining device；Described in the gas inlet connection of the gas cleaning integrated system The outlet of aluminium oxide drying unit.

Optionally, the aluminium oxide calcining device includes cyclone preheater, main furnace and thermal release cyclone cylinder；In the shell The integrated auxiliary heat-exchanging pipe in portion, for adding to the flue gas before flowing out the bag-type dusting unit and entering the area Pen An Heat, the high-temperature flue gas import of the auxiliary heat-exchanging pipe, outlet are all connected to the outlet smoke pipe of the separation cyclone cylinder, to form height Warm flue gas circuit, and it is provided with air-introduced machine on the high-temperature flue gas circuit, for providing the power of flow of flue gas.

Optionally, the exhanst gas outlet of the thermal release cyclone cylinder is connected to the import main line of the cyclone preheater；It is described The gas vent of cyclone preheater is connected to the aluminium oxide drying unit, so as to by the object after aluminium oxide drying unit drying Described in material is sent into.

It optionally, further include waste heat recycling heat-exchanging component and the cooling cyclone cylinder group for being connected to main furnace downstream, the cooling Cyclone cylinder group includes at least two cooling cyclone cylinders, flows out the flue gas of the gas cleaning integrated system and flows into the cooling rotation The cold air of air duct group recycles heat-exchanging component by the waste heat and carries out heat exchange.

Optionally, waste heat recycling heat-exchanging component include the first gas-water heat exchanger, the second gas-water heat exchanger and Pumping member, the first gas-water heat exchanger, the second gas-water heat exchanger and the pumping member form water circulation Circuit, the first gas-water heat exchanger are set to the exhanst gas outlet pipeline of the gas cleaning integrated system, second cigarette Air-water heat exchanger is set to the inlet of cold air pipeline of the cooling cyclone cylinder group.

Optionally, the auxiliary heat-exchanging pipe includes shell side and tube side, and the shell side is bag-type dusting unit outflow The runner of low-temperature flue gas, the tube side are the runner of high-temperature flue gas, and dust filtering component is provided in the tube side.

Using with gravitational dust collection unit, electric precipitation unit in aluminium oxide calcining process system provided by the utility model For gas cleaning integrated system with bag-type dusting unit instead of one cyclonic preheater in the prior art, the gas cleaning is integrated System to the efficiency of dust collection of flue gas up to 90% or more, will to the maximum extent, efficiently carry out gas solid separation so that nearly all Aluminium hydroxide material is all converted to aluminium oxide in roasting main furnace, greatly reduces the waste of material, and improve the matter of product Amount.And the integrator is high-efficient to flue gas ash removal (can be cancelled existing it is not necessary that revert system again is arranged in the subsequent process Revert system in technology), system is greatly simplified, and through the filtered outlet smoke dust discharge concentration of gas cleaning integrated system It substantially reduces, flue gas can be directly discharged to external environment.

And denitration unit is set to the downstream of afterbody dust removing units, so on the one hand can be to avoid spraying into denitration Contain NH₃Substance aluminium hydroxide material is polluted, on the other hand avoid nasal mucus shape hydrogen sulfate ammonia from causing upstream device Blocking, and then improve the quality of production, production efficiency and production security.

In addition, the mode of first dedusting denitration again is also it is possible to prevente effectively from particulate matter blocking, the generation of abrasive catalyst phenomenon, Improve the service life of denitration efficiency and catalyst.

Detailed description of the invention

Fig. 1 is a kind of structure principle chart of aluminium oxide calcining process system in the prior art；

Fig. 2 is the structure principle chart of aluminium oxide calcining process system in a kind of specific embodiment of the utility model；

Fig. 3 is the structural schematic diagram of gas cleaning integrated system in a kind of specific embodiment of the utility model.

The reference numerals are as follows into Fig. 3 by Fig. 1:

One cyclonic preheater P01 ', second level cyclone preheater P02 ', cyclone preheater P02, thermal release cyclone cylinder P03, Main furnace P04, aluminium hydroxide feed hopper L01, level-one measure Shen gram weighing belt F01, and second level measures Shen gram weighing belt F02, and feeding is defeated Send machine A01, venturi drier A02, the cooling cyclone cylinder C01 of level-one, the cooling cyclone cylinder C02 of second level, the cooling cyclone cylinder of three-level C03, the cooling cyclone cylinder C04 of level Four, aluminium oxide feed bin L02, secondary fluidizing fluid-bed blower K01, K02, electric precipitator P11, spiral shell Revolve conveyer P12, air-introduced machine Y01, chimney P05, burner V01, controller D01, the first temperature sensor M01, second temperature Sensor M02, the first gas-water heat exchanger T01, the second gas-water heat exchanger T02, pumping member B01, air-introduced machine Y02, cigarette Gas purifying integral system EF, auxiliary heat-exchanging pipe EF1, catalyst storage area EF2, Pen An area EF3, ammonia-gas spraying device EF4, gravitational dust collection Unit EF5, import loudspeaker EF6, the second ash bucket EF7, electric precipitation unit EF8, bag-type dusting unit EF9, dismembyator EF10.

Specific embodiment

Referring to FIG. 1, its process flow of gas suspension calcination technology in process for making alumina are as follows: aluminium hydroxide feed hopper Wet hydrogen aluminium oxide in L01 containing Free water 10%~12% enters roaster system by venturi drier A02, by level-one After cyclone preheater P01 ' and second level cyclone preheater P02 ' separation preheating, aluminium oxide completes preroast process, into master Furnace P04 carries out suspension roasting, then separates using cyclone separator P03, and the aluminium oxide after separating successively passes through level-one The cooling cyclone cylinder C02 of cooling cyclone cylinder C01, second level, the cooling cyclone cylinder C03 of three-level, the cooling cyclone cylinder C04 of level Four carry out primary cold But, it further cools down using the fluidizing fluid-bed blower K01 of level-one, second level ebullated bed blower K02, is blown by aluminum oxide conveying system It send to aluminium oxide feed bin L02.The exhaust gas come out from one cyclonic preheater P01 empties after electric precipitator P11, electric precipitation The material (i.e. electric precipitator gray back) that device P11 is collected enters on strength helicoidal pump through screw below the bin conveyer P12 In the collection ash cellar of side, the high-pressure blast provided by roots blower blows electric precipitator P11 gray back to the cooling cyclone cylinder C02 of second level Tapering Returning process, to adjust the igloss of finished product aluminium oxide.

Above-mentioned aluminum oxide gaseous state suspending calcining system generates following defect:

1, after aluminium hydroxide enters one cyclonic preheater P01 processing after venturi drier A02 drying, processed material Concentration is bigger, and there are about 10% to 30% or so aluminium hydroxides to enter electric precipitator P11 through flue.At electric precipitator P11 After reason, material is pumped into the cooling cyclone cylinder C02 of second level through airlift.Finally, being mixed into alumina product, so that aluminium oxide Contain excessively high aluminium hydroxide in finished product, reduces the quality of product.

2, the specific resistance of particulate matter is the important factor in order of electric precipitator dust removal performance, and due to aluminium oxide, hydroxide The specific resistance of alumina particles is higher, and electric precipitator is relatively low to its arresting efficiency, the particulate matter for be easy to causeing electric precipitator to export Concentration of emission is exceeded, and in the case where the decline of one cyclonic preheater separative efficiency, electric precipitator is exported granular material discharged dense Degree often severely exceeds, and salic, the aluminum hydroxide particles object of its discharge are pollutant for atmosphere, for oxidation It is raw material for aluminium production technology.Therefore this not only causes environmental pollution, also results in the waste of material.

3, there are alumina particles in aluminum electrolysis technology that solution rate is excessively slow even precipitates for existing aluminium oxide calcining technique The phenomenon that, lead to the production efficiency and quality of electrolytic aluminium.

Therefore, how to overcome above-mentioned one or several technological deficiencies, be still those skilled in the art's skill urgently to be resolved Art problem.

In order to make those skilled in the art more fully understand the technical solution of the utility model, herein with gas cleaning collection For being applied in aluminium oxide calcining process system at system, and the utility model is made in the following with reference to the drawings and specific embodiments It is further to be described in detail.Certainly, those skilled in that art should understand that the gas cleaning integrated system of this paper is not limited to Aluminium oxide calcining process system can be applied to other and need to carry out flue gas the process system of purified treatment, such as smelts iron Process system, process for making system etc..

The words such as " first " described herein, " second " are only the differentiations to function or the similar components of structure.

Fig. 2 and Fig. 3 are please referred to, Fig. 2 is the knot of aluminium oxide calcining process system in a kind of specific embodiment of the utility model Structure schematic diagram；Fig. 3 is the structural schematic diagram of gas cleaning integrated system in a kind of specific embodiment of the utility model.Wherein Fig. 2 It is identical with partial symbols in Fig. 1, indicate the identical a kind of device of function.

The utility model provides a kind of aluminium oxide calcining process system, and the utility model is aluminium oxide roasting shown in Fig. 1 The system improved on the basis of firing technique system.Aluminium oxide calcining process system provided by the utility model includes oxidation Aluminium drying unit, gas cleaning integrated system EF, aluminium oxide calcining device, waste heat recycle heat-exchanging component and even cooling cyclone cylinder Group.

Wherein the channel of connection aluminium oxide drying unit and aluminium oxide calcining device is arranged in gas cleaning integrated system EF On.Wherein aluminium oxide drying unit includes drier, and drier can be venturi drier A02, naturally it is also possible to be other Drying part mainly realizes the drying to solid material.Aluminium oxide calcining device major function is to realize alumina material Preheating and roasting, may include cyclone preheater, main furnace and thermal release cyclone cylinder.Certainly, the structure of aluminium oxide calcining device It is not limited to above description.

In a specific embodiment, compared with Fig. 1 technical solution, the process system of the utility model is net using flue gas Change integrated system EF instead of the one cyclonic preheater in Fig. 1, by taking drier is venturi drier A02 as an example, in Wen Qiu In gas cleaning integrated system EF is set on the connecting pipeline of drier A02 and second level cyclone preheater.

Specifically, gas cleaning integrated system EF may include shell, along aluminium oxide calcining flow of flue gas direction, shell At least it is integrated with gravitational dust collection unit EF5, electric precipitation unit EF8 and bag-type dusting unit EF9 and denitration unit.Electric precipitation unit EF8 includes the component that the electrod assembly for being used to form dedusting electric field, such as anode plate, cathode line etc. cooperatively form dedusting electric field, The electrod assembly for forming dedusting electric field does not do specific introduction herein, can refer to the prior art.Bag-type dusting unit EF9 is provided with Filter bag, the quantity and situation of filter bag can be selected by actual conditions, wherein the preferred metal filter bag of filter bag.Bag-type dusting unit EF9 mainly utilizes part solid particle in sock filtration flue gas.

Enclosure interior is also integrated with gravitational dust collection unit EF5, and being internally provided with for gravitational dust collection unit EF5 roasts aluminium oxide The gravitational field component that part solid particle is deposited by self gravity in flue gas is burnt, i.e. the function of gravitational dust collection unit EF5 is to make Flue gas is precipitated by the gravity sedimentation of itself in larger particles in flue gas.The concrete form of gravitational field component, technology people in the art Member can carry out Rational choice by specific environment.

Gravitational dust collection unit EF5 is located at the upstream of electric precipitation unit EF8.That is, flue gas first passes through gravitational dust collection list First EF5 makes the material that particle is bigger in flue gas that flue gas be precipitated under the effect of gravity, then makes using dedusting electric field Part median size particle deposition is precipitated in flue gas, finally using bag-type dusting unit EF9, utilizes sock filtration part granule The solid particle of diameter.That is gravitational dust collection unit EF5 carries out pre- dedusting, and electric precipitation unit EF8 carries out moderate dedusting, and last pocket type removes Dirt unit EF9 carries out depth dedusting.Material outlet of the solid particle filtered by gravitational dust collection unit EF5 from the second ash bucket EF7 It is transmitted to the import (cyclone preheater P02 import in Fig. 2) of aluminium oxide calcining device, by electric precipitation unit EF8 and bag-type dusting The solid particle of unit EF9 filtering is sent to the import of cyclone preheater from the first ash bucket, enters after being separated by cyclone preheater Main furnace P04.

By above-mentioned setting, gas cleaning integrated system EF, up to 99.95% or more, exports flue dust to flue gas ash removal efficiency Concentration of emission is less than 10mg/m³。

Gas cleaning integrated system EF further includes ash bucket, and the discharge port of ash bucket passes through pipeline connection aluminium oxide calcining device Import.Ash bucket can be one outlet, or multiple.

In a specific embodiment, ash bucket may include the first ash bucket and the second ash bucket, and the first ash bucket is correspondingly arranged Below electric precipitation unit EF8 and bag-type dusting unit EF9, the discharge port of the first ash bucket is filled by pipeline connection aluminium oxide calcining The import set, in Fig. 2, the discharge port of the first ash bucket is connected to cyclone preheater.First ash bucket can only have a discharge port, when Two or more discharge ports so also can be set, such as a discharge port is arranged in corresponding electric precipitation unit EF8, corresponding pocket type removes A discharge port is arranged in dirt unit EF9.Certainly, set-up mode is not limited to be described herein, as long as can be realized above-mentioned function i.e. It can.

The exhanst gas outlet of gas cleaning integrated system EF passes through fume extractor outside piping connection, usually external fume extractor For chimney.Certainly, flue gas can also be immediately discharged to outside from the exhanst gas outlet of gas cleaning integrated system EF.

In this way, material is directly entered gas cleaning after venturi drier A02 is dry in aluminium hydroxide feed hopper L01 Integrated system EF successively passes through gravitational dust collection unit EF5, electric precipitation unit EF8 and bag inside gas cleaning integrated system EF Formula dust removing units EF9, the partial particulate in flue gas are isolated by filtration out, are delivered to cyclone preheater from the discharge port of ash bucket, are passed through The alumina particle that cyclone preheater is separated enters main furnace P04 suspension roasting, then enters back into subsequent process flow.It is another Aspect, the flue gas flowed out from the exhanst gas outlet of gas cleaning integrated system EF can be arranged directly or after waste heat recycles by outside The discharge of cigarette equipment.

From the above, it can be seen that using with gravity in aluminium oxide calcining process system provided by the utility model Dust removing units EF5, electric precipitation unit EF8, bag-type dusting unit EF9 and denitration unit gas cleaning integrated system EF instead of One cyclonic preheater in the prior art, the gas cleaning integrated system EF up to 90% or more, incite somebody to action the efficiency of dust collection of flue gas To the maximum extent, gas solid separation is efficiently carried out, so that nearly all aluminium hydroxide material is all converted to oxygen in roasting main furnace Change aluminium, greatly reduces the waste of material, and improve the quality of product.And the integrator is high-efficient to flue gas ash removal to be not necessarily to Revert system (can cancel revert system in the prior art) again is set in the subsequent process, greatly simplifies system, and It is substantially reduced through the filtered outlet smoke dust discharge concentration of gas cleaning integrated system EF, flue gas can be directly discharged to extraneous ring Border.

In view of NO in flue gas_xInfluence to external environment, the flue gas after depth dedusting can be de- with further progress Nitre technique.I.e. enclosure interior can also be integrated with out of stock unit, be located at the downstream bag-type dusting unit EF9, and denitration unit includes urging Agent storage area EF2 and Pen An area EF3, the area Pen An EF3 are located between bag-type dusting unit EF9 and catalyst storage area EF2, until The nozzle of few ammonia-gas spraying device EF4 is set to the area Pen An EF3.That is ammonia-gas spraying device EF4 can be set in the area Pen An EF3, It can be set outside the area Pen An EF3.Preferably ammonia-gas spraying device EF4 is set to outside the area Pen An EF3 herein, i.e., positioned at shell Outside, reduction occupy enclosure interior space.

For storing denitrating catalyst, the flue gas after depth dedusting is sprayed catalyst storage area EF2 in the area Pen An EF3 Ammonia carries out denitration when the flue gas after spraying ammonia flows through catalyst storage area EF2 under the catalytic action of catalyst.Catalyst can be with For vanadium tungsten titanium cellular catalyst.

In above embodiment, denitration unit is set to the downstream of afterbody dust removing units, it so on the one hand can be with Avoid spraying into denitration contains NH₃Substance aluminium hydroxide material is polluted, on the other hand avoid nasal mucus shape hydrogen sulfate ammonia It results in blockage to upstream device, and then improves the quality of production, production efficiency and production security.

In addition, the mode of first dedusting denitration again is also it is possible to prevente effectively from particulate matter blocking, the generation of abrasive catalyst phenomenon, Improve the service life of denitration efficiency and catalyst.

Certainly, the import of gas cleaning integrated system EF can be import loudspeaker EF6, in order to which flue gas is removed even into electricity Dirt unit EF8.

In order to further increase the efficiency of dust collection of gas cleaning integrated system EF, also further setting is as follows herein.

The usual partial size of solid particle filtered by gravitational dust collection unit EF5 is bigger, and subsequent dissolution speed is slow, very The phenomenon that precipitating can extremely be generated.Against the above technical problems, the utility model has carried out following improvement to system.

In the various embodiments described above, aluminium oxide calcining process system can also include dismembyator EF10, and dismembyator EF10 includes Inlet and outlet, the material outlet of the second ash bucket of inlet communication EF7 of dismembyator EF10, the outlet whirlwind of dismembyator EF10 The import of preheater, dismembyator EF10 are internally provided with grinding component, and the material for flowing into the first ash bucket is ground into predetermined Particle.Predetermined particle refers to the suitable grain that not will cause that solution rate is slow or precipitates in electrolyte in subsequent oxidation alumina particles Diameter.Certainly, predetermined particle is the smaller the better.Underground predetermined particle specific size, can't understand those skilled in that art This paper technical solution causes obstacle, will not interfere its implementation.

The specific structure of dismembyator EF10 can refer to the prior art, be not belonging to introduce herein.

Denitrating technique has certain requirement, the denitrating flue gas efficiency of usual 300 degrees centigrade for the temperature of flue gas It is relatively high.Therefore in order to improve denitration efficiency as far as possible, following improvement has also been carried out to system herein.

In a specific embodiment, above-mentioned process system can also include auxiliary heat-exchanging pipe EF1, be integrated in shell Pair inside is mainly used for the flue gas before convection current goes out pocket type dust removing units EF9 and do not enter the area Pen An EF3 also and is heated, i.e., Flue gas before the area Pen An EF3 is preheated.The high temperature heat source of auxiliary heat-exchanging pipe EF1 can be electricity, can be from outside High temperature fluid medium.By taking aluminium oxide calcining technique as an example, import, the outlet of auxiliary heat-exchanging pipe can be all connected to aluminium oxide calcining The outlet smoke pipe of main furnace in device, to form high-temperature flue gas circuit.Air-introduced machine Y02, air-introduced machine are provided on high-temperature flue gas circuit Y02 leads to the main furnace P04 partial fume exported inside auxiliary heat-exchanging pipe, and high-temperature flue gas returns again to main furnace after auxiliary heat-exchanging pipe P04 exports smoke pipe.

The flue-gas temperature of the main outlet furnace P04 is up to 1000 degrees Celsius, under the action of air-introduced machine Y02, the main outlet furnace P04 Part high-temperature flue gas is directed to inside auxiliary heat-exchanging pipe, and the low-temperature flue gas through bag-type dusting unit EF9 flows through auxiliary and changes in shell After heat pipe, by the high-temperature flue gas heat temperature raising inside auxiliary heat-exchanging pipe, the area Pen An EF3 is then flowed into.It in this way can will be in shell The denitration flue gas in portion is controlled in best denitration temperature range, to greatly improve denitration efficiency.

Power by controlling air-introduced machine Y02 may be implemented to flow into the flow of auxiliary heat-exchanging pipe EF1 high temperature flue gas, in turn The temperature of low-temperature flue gas after control heat exchange.

Specifically, the exhanst gas outlet of main furnace P04 is connected to thermal release cyclone cylinder P03, import, the outlet of auxiliary heat-exchanging pipe EF1 It is connected to main line between main furnace and thermal release cyclone cylinder P03.

In the various embodiments described above, the import supervisor of the exhanst gas outlet connection cyclone preheater P02 of thermal release cyclone cylinder P03 Road, so that the high-temperature flue gas can be preheated to the solid particle before entering cyclone preheater P02.

Meanwhile the gas vent connection aluminium oxide drying unit (gas of cyclone preheater in Fig. 2 of cyclone preheater P02 Outlet venturi drier A02), so that the material after the drying of aluminium oxide drying unit is sent into subsequent technique program, example It is such as sent into inside gas cleaning integrated system EF.

Denitration discharge flue gas temperature be also it is relatively high, in order to reduce thermal loss as far as possible, can also carry out herein It is arranged below.

As described above, the aluminium oxide calcining process system in the various embodiments described above further includes waste heat recycling heat-exchanging component and company It is connected to the cooling cyclone cylinder group in main furnace downstream, cooling cyclone cylinder group includes at least two cooling cyclone cylinders, shows cooling in Fig. 2 Cyclone cylinder group includes the specific embodiment of four cooling cyclone cylinders, and along flow direction of material, four cooling cyclone cylinders are respectively as follows: level-one The cooling cyclone cylinder C02 of cooling cyclone cylinder C01, second level, the cooling cyclone cylinder C03 of three-level, the cooling cyclone cylinder C04 of level Four.

Suspension roasting is carried out into main furnace P04, is then separated using cyclone separator P03, the oxidation after separating Aluminium successively passes through the cooling cyclone cylinder C01 of level-one, the cooling cyclone cylinder C02 of second level, the cooling cyclone cylinder C03 of three-level, the cooling whirlwind of level Four Cylinder C04 carries out primary cooling, further cools down using the fluidizing fluid-bed blower K01 of level-one, second level ebullated bed blower K02, by Aluminum oxide conveying system is blowed to aluminium oxide feed bin L02.

The cold air for flowing out the flue gas of gas cleaning integrated system EF in the utility model and flowing into cooling cyclone cylinder group is logical Excess enthalpy recuperation of heat heat-exchanging component carries out heat exchange, to flow into cooling whirlwind using the flue gas of gas cleaning integrated system EF The cold air of cylinder group.For the above, flows out the flue gas of gas cleaning integrated system EF and flow into the cooling cyclone cylinder C04 of level Four Cold air pass through pre- recuperation of heat heat-exchanging component carry out heat exchange.

In a specific embodiment, waste heat recycling heat-exchanging component may include the first gas-water heat exchanger T01, second Gas-water heat exchanger T02 and pumping member B01, the first gas-water heat exchanger T01, the second gas-water heat exchanger T02 and pumping Part B 01 forms water-flow circuit, and the first gas-water heat exchanger T01 is set to the exhanst gas outlet of gas cleaning integrated system EF Pipeline, the second gas-water heat exchanger T02 are set to the inlet of cold air pipeline of cooling cyclone cylinder group.

The above-mentioned form for setting waste heat recycling heat-exchanging component on two gas-water heat exchangers, can be improved system setting Flexibility.

In order to realize that the automation control of system, the utility model are further provided with controller D01 and temperature detection Device, temperature-detecting device are used to detect in the high-temperature medium temperature for flowing into auxiliary heat-exchanging pipe and gas cleaning integrated system Low-temperature flue gas temperature of the portion after the heating of auxiliary heat-exchanging pipe；Controller is controlled according to high-temperature medium temperature and low-temperature flue gas temperature Low-temperature flue gas temperature is in predetermined denitration temperature range.

By taking aluminium oxide calcining technique as an example, temperature-detecting device is for detecting the high temperature cigarette for flowing to auxiliary heat-exchanging pipe by main furnace Low-temperature flue gas temperature inside temperature degree and gas cleaning integrated system EF after the heating of auxiliary heat-exchanging pipe.Specifically, temperature Detection device may include the first temperature sensor M01 and second temperature sensor M02, be respectively used to detection high-temperature flue-gas With low-temperature flue gas temperature.

Controller D01 controls the work of air-introduced machine Y02 and pumping member B01 according to high-temperature flue-gas and low-temperature flue gas temperature Make efficiency, so that low-temperature flue gas temperature is in predetermined denitration temperature range.

Aluminium oxide calcining process system provided by the utility model can also include level-one metering Shen gram weighing belt F01, Second level measures Shen gram weighing belt F02, feeding conveyer A01, and above each component is sequentially connected to aluminium hydroxide feed hopper L01 and does Between dry device A02.Similarly main furnace P04 is equipped with burner V01, the effect of above each component in systems and prior art phase Together, this will not be repeated here.

Furthermore main induced draft fan Y01 can also be set on the flue collector between gas cleaning integrated system and chimney P05, For providing power of discharging fume.

Above are merely preferred embodiments of the utility model, it is noted that for the ordinary skill people of the art For member, without departing from the principle of this utility model, several improvements and modifications can also be made, these improvements and modifications Also it should be regarded as the protection scope of the utility model.

Claims (10)

1. a kind of gas cleaning integrated system, which is characterized in that including shell, successively along enclosure interior described in flow of flue gas direction Including gravitational dust collection unit, electric precipitation unit, bag-type dusting unit and denitration unit；

The gravitational dust collection unit its be internally provided with the gravitational field for making that part solid particle is deposited by self gravity in flue gas Component；

The electric precipitation unit includes the electrod assembly for being used to form dedusting electric field；

The bag-type dusting unit is provided with filter bag；

The denitration unit includes catalyst storage area and the area Pen An, and the area Pen An is located at the bag-type dusting unit and described Between catalyst storage area, the nozzle of at least ammonia-gas spraying device is set to the area Pen An；

The gas cleaning integrated system further includes being correspondingly arranged in the electric precipitation unit, the bag-type dusting unit and described Ash bucket is provided with below gravitational dust collection unit.

2. gas cleaning integrated system according to claim 1, which is characterized in that further include being provided with grinding for inlet and outlet Grinder, the ash bucket include the first ash bucket and the second ash bucket, and first ash bucket corresponds to the electric precipitation unit and the pocket type Dust removing units, second ash bucket correspond to the gravitational dust collection unit, and the import of the dismembyator is at least connected to second ash The material outlet of bucket, the outlet of the dismembyator is for being connected to subsequent technique material input；The dismembyator is internally provided with Grinding component, the material for flowing into second ash bucket are ground into predetermined particle.

3. gas cleaning integrated system according to claim 1 or claim 2, which is characterized in that the enclosure interior is also integrated with auxiliary Heat exchanger tube is helped, is carried out for the flue gas before flowing out the bag-type dusting unit to the enclosure interior and enter the area Pen An Heating.

4. gas cleaning integrated system according to claim 3, which is characterized in that further include controller and temperature detection dress It sets, the temperature-detecting device is for detecting the high-temperature medium temperature and the gas cleaning for flowing into the auxiliary heat-exchanging pipe Low-temperature flue gas temperature inside integrated system after auxiliary heat-exchanging pipe heating；The controller, according to the high-temperature medium Temperature and the low-temperature flue gas temperature control the low-temperature flue gas temperature and are in predetermined denitration temperature range.

5. a kind of aluminium oxide calcining process system, which is characterized in that including the described in any item gas cleanings of Claims 1-4 Integrated system, the flue being set between connection aluminium oxide drying unit and aluminium oxide calcining device, the ash bucket go out Material mouth is connected to the import of the aluminium oxide calcining device；The gas inlet of the gas cleaning integrated system is connected to the aluminium oxide The outlet of drying unit.

6. aluminium oxide calcining process system according to claim 5, which is characterized in that the aluminium oxide calcining device includes rotation Wind preheater, main furnace and thermal release cyclone cylinder；The integrated auxiliary heat-exchanging pipe of the enclosure interior, for being removed to the outflow pocket type Flue gas before dirt unit and the entrance area Pen An is heated, and the high-temperature flue gas import of the auxiliary heat-exchanging pipe, outlet are equal It is connected to the outlet smoke pipe of the separation cyclone cylinder, to form high-temperature flue gas circuit, and is arranged on the high-temperature flue gas circuit There is air-introduced machine, for providing the power of flow of flue gas.

7. aluminium oxide calcining process system according to claim 6, which is characterized in that the flue gas of the thermal release cyclone cylinder goes out Mouth is connected to the import main line of the cyclone preheater；The gas vent of the cyclone preheater is connected to the aluminium oxide drying dress It sets, described in being sent into the material after aluminium oxide drying unit drying.

8. according to any one of claim 5 to the 7 aluminium oxide calcining process system, which is characterized in that further include waste heat recycling Heat-exchanging component and the cooling cyclone cylinder group for being connected to main furnace downstream, the cooling cyclone cylinder group include at least two cooling whirlwind Cylinder, the flue gas for flowing out the gas cleaning integrated system and the cold air for flowing into the cooling cyclone cylinder group are returned by the waste heat It receives heat-exchanging component and carries out heat exchange.

9. aluminium oxide calcining process system according to claim 8, which is characterized in that the waste heat recycles heat-exchanging component and includes First gas-water heat exchanger, the second gas-water heat exchanger and pumping member, the first gas-water heat exchanger, described second Gas-water heat exchanger and the pumping member form water-flow circuit, and the first gas-water heat exchanger is set to the flue gas The exhanst gas outlet pipeline of purifying integral system, the second gas-water heat exchanger are set to the cold sky of the cooling cyclone cylinder group Gas inlet pipe road.

10. aluminium oxide calcining process system according to claim 6, which is characterized in that the auxiliary heat-exchanging pipe includes shell side And tube side, the shell side are the runner of the low-temperature flue gas of bag-type dusting unit outflow, the tube side is the stream of high-temperature flue gas Road, and dust filtering component is provided in the tube side.