CN204768225U - Hypergravity multiple -effect flue gas is retrieved and gas cleaning device - Google Patents

Abstract

The utility model discloses a hypergravity multiple -effect flue gas is retrieved and gas cleaning device, the hypergravity reaction zone that the gas passage is linked together more than the two -stage that transversely sets gradually, be equipped with the rotary mechanism who is used for producing hypergravity and mass transfer exchange in each hypergravity reaction zone, this rotary mechanism's pivot level sets up, each hypergravity reaction zone is equipped with separately independent reaction liquid input mechanism, and the reaction liquid of input only carries out the mass transfer exchange at the gas of this hypergravity reaction zone and process. The utility model discloses purify to the recovery of complicated flue gas, can once only solve the flue gas and retrieve the purification problem, handles the same flue gas condition and can reach that the energy consumption is low, the capital investment is few, effect that equipment area is little, further, can carry out subsequent processing to the different reaction liquid that absorb, there is high added value can make fertilizer etc. Like sulphuric acid ammonia, reduction secondary pollution.

Description

Hypergravity multiple-effect off-gas recovery and smoke eliminator

Technical field

The utility model relates to emission gases purified treatment field, is particularly applicable to the technology that all air environmental pollutions needing the boiler of the burnings such as fire coal, combustion gas, fuel oil, living beings, generating and chemical reaction to produce the industry of pernicious gas etc. administer field.

Background technology

Present great majority are all that first order whirlwind adds spraying and dedusting then absorption tower lime white spray-absorption reaction for the process of discharge flue gas.Do reasonable two-level absorption tower of taking absorbs, first order lime white spray-absorption reaction, second level ammonia spray absorption reaction.The method on usual this absorption tower is called wet-treating.Another utilizes the agent of High-temperature scr catalyst catalytic absorption directly to absorb flue gas, and this method is called dry method.But it is very expensive to utilize the dry method of high temperature SCR catalysis to the direct catalytic absorption of flue gas largely to solve the discharge SCR catalyst of nitrogen oxide, and will regularly replace.Often change and once all will shut down time-intensive, expensive, be unfavorable for long-term run continuously power amplifier condition, the operating cost of on average getting off is higher.Therefore current most of flue gas processing method is all take wet type, because damp process is all adopt absorption reaction tower.Well-known wet absorption reaction tower is all that absorption reaction liquid sprays from top to bottom substantially and process that flue gas is walked from the bottom up reaches mass transfer and exchanges and carry out absorption reaction.Owing to being carry out under natural Action of Gravity Field in absorption reaction process, if accomplish to remove the reasonable effect of harmful smoke, then must absorption reaction tower be done very large very large, cause the very large investment of whole project floor space also very large, and need excessive consumption reactant liquor just can reach reasonable effect.And carry out reacted absorption reaction liquid and also need otherwise processed, otherwise easily become secondary pollution source.

The propositions such as Chinese utility model patent CN2650859Y " superheavy devulcanizing dust remover ", utility model patent CN201275461Y " rotate removing sulfur and dust and eleminating smoke system " can improve flue gas desulfurization effect effectively, but still can't resolve process and the purifying problem of complicated flue gas system, it is basic or adopt absorption reaction liquid to move from top to bottom and the mode of flue gas movement from the bottom up, the function on each absorption tower is still single, if need to adopt different absorbing liquids to carry out different treatment steps, still needs to set up several absorption towers to realize.

Utility model content

For above-mentioned prior art Problems existing, of the present utility modelly provide a kind of hypergravity multiple-effect off-gas recovery and smoke eliminator, it carries out off-gas recovery and gas cleaning most effectively, and energy consumption is little, and loss is low, and equipment volume is little, and cost of investment is low.

The purpose of this utility model realizes like this; A kind of hypergravity multiple-effect off-gas recovery and smoke eliminator, is characterized in that comprising: the hypergravity reaction zone that the above gas passage of two-stage laterally set gradually is connected; Be provided with the rotating mechanism exchanged for generation of hypergravity and mass transfer in each hypergravity reaction zone, the rotating shaft of this rotating mechanism is horizontally disposed with; Each hypergravity reaction zone is provided with separately independently reactant liquor input mechanism, and the reactant liquor of input only carries out mass transfer exchange at the gas of this hypergravity reaction zone and process.

Described rotating mechanism is arranged in the gas passage of hypergravity reaction zone, and rotating mechanism comprises rotating shaft and is connected with rotating shaft and the rotation filler of synchronous axial system; Rotate between filler and next stage hypergravity reaction zone and be provided with seal.

Described rotation filler is that silk screen rotates filler, is arranged at rotating shaft periphery in the form of a ring, by rotating disk and the affixed and synchronous axial system of rotating shaft.

Described rotating shaft is hollow tubular, and tube wall corresponding rotation filler medium position is provided with some hole for water sprayings, is not communicated with in the rotating shaft of hypergravity reaction zone at different levels; Reactant liquor input mechanism is the woven hose be communicated with rotating shaft inside.

Described reactant liquor input mechanism is a wherein fixing support column of the bearing spider for supporting shaft, this fixed bearing post hollow forms described woven hose, fixed bearing post position is diametrically provided with two support holes run through for rotating shaft, rotating shaft radial direction on the position between two support holes is provided with plural blasthole, and two supporting post holes seal with rotating shaft outer surface and contact.

Described seal adopts the labyrinth seal of ring-type.

Hypergravity reaction zone described in each is sequentially arranged in a horizontal housing by horizontal direction, and gas passage is made up of the horizontal shell air inlet be communicated with successively, each hypergravity reaction zone, horizontal housing gas outlet.

Be fitted together to and the coaxial rotation that links together mutually by the recess of adjacent shafts termination and protuberance between the rotating shaft of hypergravity reaction zone described in each.

Hypergravity reaction zone described in each is provided with separately independently reactant liquor recovering mechanism.

Flange joint is passed through between hypergravity reaction zone described in each.

The utility model can absorb flue gas most effectively and react, feature is the reclaiming clean for complicated flue gas, the disposable solution off-gas recovery purifying problem of energy, further, by arranging separately independently reactant liquor recovering mechanism, subsequent treatment can be carried out for different absorption reaction liquid, have high added value such as sulfate of ammoniac to make fertilizer etc., reduce secondary pollution.Because the complicated existing technology of smoke components is difficult to the purification of disposable solution off-gas recovery.The utility model can carry out different absorption reactions respectively with different absorption reaction liquid, can the off-gas recovery purifying problem of disposable solution complexity, processes same smoke condition and can reach that energy consumption is low, capital investment is few, the effect that occupation area of equipment is little.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment 1;

Fig. 2 is the left side view of Fig. 1;

Fig. 3 is the structural representation of the rotating mechanism of the utility model embodiment 1;

Fig. 4 is the johning knot composition of reactant liquor input mechanism and rotating shaft in the utility model embodiment 1 first order hypergravity reaction zone I;

Fig. 5 is the component decomposition map of the utility model embodiment 1 adjacent shafts;

Wherein: bearing spider 1, rotating shaft 2, recess 21, protuberance 22, rotates filler 3, rotating disk 31, shaft seal 4, housing 5, shell air inlet 51, housing gas outlet 52, shower nozzle 6, hole for water spraying 61, seal 7, power shaft 8, motor 9, fixed bearing post 18, seal 19

First order hypergravity reaction zone I, first order reactant liquor input mechanism 10, first order reactant liquor recovering mechanism 11, second level hypergravity reaction zone II, second level reactant liquor input mechanism 12, second level reactant liquor recovering mechanism 13, third level hypergravity reaction zone III, third level reactant liquor input mechanism 14, third level reactant liquor recovering mechanism 15, fourth stage hypergravity reaction zone IV, fourth stage reactant liquor input mechanism 16, fourth stage reactant liquor recovering mechanism 17.

Detailed description of the invention

The utility model is a kind of hypergravity multiple-effect off-gas recovery and smoke eliminator, comprising: the hypergravity reaction zone that the above gas passage of two-stage laterally set gradually is connected; Be provided with the rotating mechanism exchanged for generation of hypergravity and mass transfer in each hypergravity reaction zone, the rotating shaft 2 of this rotating mechanism is horizontally disposed with; The reactant liquor input mechanism of each hypergravity reaction zone is independent separately, and the reactant liquor of input only carries out mass transfer exchange at the gas of this hypergravity reaction zone and process.The reactant liquor input mechanism of each hypergravity reaction zone is independent separately, identical or different reactant liquor can be inputted, simultaneously because each hypergravity reaction zone laterally sets gradually, therefore the reactant liquor inputted only carries out mass transfer exchange at the gas of this hypergravity reaction zone and process, be subject to gravity relation after reaction can only be back in this hypergravity reaction zone and reclaimed by this order reaction liquid recovering mechanism, other hypergravity reaction zones can not be affected, thus different absorption reactions can be carried out respectively with different absorption reaction liquid, the off-gas recovery purifying problem of the disposable solution complexity of energy.

The object of said apparatus process: the reacting gas that the flue gas (as power plant, steam boiler, heat-conducting oil furnace etc. need the place of burning) produced in most of combustion process and chemical reaction produce, can apply the method and carry out off-gas recovery or reduce fume emission purifying smoke.Dust, SO in the utility model disposable solution flue gas of equipment energy ₂, NOx etc. emission gases recovery or reduce discharging object, can carry out different absorption reactions respectively with different absorption reaction liquid can the off-gas recovery purifying problem of disposable solution complexity.

Embodiment 1

As shown in Figure 1 and Figure 2, in the present embodiment, be disposed with the first order ~ fourth stage hypergravity reaction zone I, II, III, IV that gas passage is connected, become an entirety with horizontal housing 5 by Flange joint, compact conformation, small volume.Each hypergravity reaction zone I, II, III, IV is arranged in order by horizontal direction, gas passage as the path of A to B in Fig. 1, by the shell air inlet 51 be communicated with successively, each hypergravity reaction zone I, II, III, IV, housing gas outlet 52 forms.Flange joint is passed through between hypergravity reaction zone I, II, III, IV described in each.

Be provided with the rotating mechanism exchanged for generation of hypergravity and mass transfer in each hypergravity reaction zone I, II, III, IV, the rotating shaft 2 of this rotating mechanism is horizontally disposed with; The reactant liquor input mechanism 10,12,14,16 of each hypergravity reaction zone I, II, III, IV is independent separately, and the reactant liquor of input only carries out mass transfer exchange at the gas of this hypergravity reaction zone and process.Rotating mechanism is arranged in the gas passage of hypergravity reaction zone I, II, III, IV.The reactant liquor recovering mechanism 11,13,15,17 of each hypergravity reaction zone I, II, III, IV (be liquid collection opening at the present embodiment) is independent separately, thus is conducive to absorbing waste liquid and again recycles.

Rotating mechanism comprises rotating shaft 2 and is connected with rotating shaft 2 and the rotation filler 3 of synchronous axial system.Preferably as shown in Figure 3, as the present embodiment, rotating filler 3 adopts silk screen to rotate filler, be arranged in the form of a ring rotating shaft 2 peripheral and with its synchronous axial system, can first rotation filler 3 be fixed on a rotating disk 31 during installation, and then rotating disk 31 center and rotating shaft 2 are fixed, drive unitary rotation by rotating shaft 2.Rotating disk 31 is positioned at and rotates filler 3 near the side of shell air inlet 51.Rotating disk 3 diameter is at least not less than ring-type and rotates the internal diameter of filler 3, thus blocks the hollow region that flue gas directly rotates filler 3 by ring-type and enter next stage hypergravity reaction zone.Best, rotating disk 3 diameter is not less than the external diameter that ring-type rotates filler 3, as the present embodiment, owing to being stopped by rotating disk 31 after making flue gas enter hypergravity reaction zone, it can be forced to enter from the through hole rotating filler 3 outermost and to rotate filler 3 inside, to the flue gas rotating filler 3 central motion with from rotates in the middle part of filler 3 outside move be dispersed in after the reactant liquor rotating filler 3 interior surface carries out sufficient mass transfer exchange, then be expelled to the hollow region of the rotation filler 3 of ring-type from the through hole rotating filler 3 inner ring, then enter next stage hypergravity reaction zone.

For avoiding flue gas directly to enter next stage hypergravity reaction zone without rotation filler 3, preferably, the gap between rotation filler 3 and next stage hypergravity reaction zone is provided with seal 7.Preferred, the seal 7 adopts labyrinth seal.As the present embodiment, labyrinth seal is ring-type, comprises the two parts engaging each other and play sealing function, and wherein a part is fixed on and rotates filler 3 near the side of next stage hypergravity reaction zone, with rotation filler 3 synchronous axial system; The corresponding next stage hypergravity reaction zone that is fixed on of another part is near the side rotating filler 3.When carrying out purified treatment, the reactant liquor of ejection can penetrate in the gap of labyrinth seal, ensures sealing effectiveness further.

Rotating shaft 2 is hollow tubular, although the rotating shaft 2 being positioned at different hypergravity reaction zone I, II, III, IV links, is provided with shaft seal 4 between adjacent, makes independent separately and is not communicated with.Can be fitted together to mutually by the recess 21 of adjacent shafts termination and protuberance 22 and link together thus realize coaxial rotation (see Fig. 5) between the rotating shaft 2 of each hypergravity reaction zone.And then be connected with motor 9 link by power shaft 8.

In the middle part of the rotation filler 3 of the corresponding ring-type of tube wall, hollow position is provided with some hole for water sprayings 61.Such as in the present embodiment, rotating shaft 2 is provided with several shower nozzles 6 extended radially outwardly, and shower nozzle 6 end is hole for water spraying 61, thus the reactant liquor of order ejection is closer to rotation filler 3.Each reactant liquor input mechanism 10, 12, 14, 16 is the woven hose be communicated with rotating shaft 2 inside, in the present embodiment, for in first order hypergravity reaction zone I, reactant liquor input mechanism 10 is a wherein fixing support column 18 of the bearing spider 1 for supporting shaft 2, this fixed bearing post 18 hollow forms woven hose, reactant liquor enters to arrow by C, fixed bearing post 18 position is diametrically provided with two support holes run through for rotating shaft 2, rotating shaft 2 radial direction on the position between two support holes is provided with plural blasthole 22, two supporting post holes seal with rotating shaft 22 outer surface and contact, seal 19 is positioned at supporting post holes hole wall, can be mechanical seal also can be packing seal.

To adopt embodiment 1 equipment, treatment and purification method is conducted further description:

Flue gas is from shell air inlet 51 access arrangement, first order hypergravity reaction zone I when rotating filler 3 and rotating reactant liquor such as water from first order reactant liquor input mechanism 10 through the center of rotating shaft 3, hole for water spraying 61 sprays, with flue gas reverse flow, hypergravity is produced at rotation filler 3, enhance reactant liquor to contact with dust, carry out adsorbing powder dust, thus reaching removing of dust, the reactant liquor being then adsorbed with dust under the influence of centrifugal force can be thrown on first order hypergravity reaction zone I inwall and collect in first order reactant liquor recovering mechanism 11, flue gas through removing dust directly enters second level hypergravity reaction zone II (completing in housing 5 inside), the absorbing liquid of the second level or reactant liquor such as adopt buck or limewash as a same reason, pass into rotating shaft 3 from second level reactant liquor input mechanism 12 to spray, with flue gas reverse flow, hypergravity is produced at rotation filler 3, enhance liquid and smoke contacts carries out adsorbing flue gas and reacting, thus reaching removing of sulfur dioxide, last absorbing liquid or reactant liquor are thrown under the influence of centrifugal force on inwall and collect in second level reactant liquor recovering mechanism 13, analogize therewith, flue gas enters into third level hypergravity reaction zone III from second level hypergravity reaction zone II, the third level such as utilizes ammoniacal liquor to make absorbing liquid or reactant liquor, pass into rotating shaft 3 from third level reactant liquor input mechanism 14 to spray, with flue gas reverse flow, hypergravity is produced at rotation filler 3, enhance liquid and smoke contacts carries out adsorbing flue gas and reacting, thus reaching removing of nitrogen oxide, absorbing liquid at this moment or reactant liquor are thrown under the influence of centrifugal force on inwall and collect in third level reactant liquor recovering mechanism 15, in order to increase one-level again to the purification of flue gas better and flue gas enters into fourth stage hypergravity reaction zone IV from third level hypergravity reaction zone III, the fourth stage such as utilizes makes absorbing liquid or reactant liquor with the ammoniacal liquor of third level variable concentrations, pass into rotating shaft 2 from fourth stage reactant liquor input mechanism 16 to spray, with flue gas reverse flow, hypergravity is produced at rotation filler 3, enhance liquid and smoke contacts carries out adsorbing flue gas and reacting, thus remove nitrogen oxide further, at this moment absorbing liquid or reactant liquor are thrown under the influence of centrifugal force on inwall and collect in fourth stage reactant liquor recovering mechanism 17, purified gas is discharged from B housing gas outlet 52.

Claims (10)

1. hypergravity multiple-effect off-gas recovery and a smoke eliminator, is characterized in that comprising: the hypergravity reaction zone that the above gas passage of two-stage laterally set gradually is connected; Be provided with the rotating mechanism exchanged for generation of hypergravity and mass transfer in each hypergravity reaction zone, the rotating shaft of this rotating mechanism is horizontally disposed with; Each hypergravity reaction zone is provided with separately independently reactant liquor input mechanism, and the reactant liquor of input only carries out mass transfer exchange at the gas of this hypergravity reaction zone and process.

2. hypergravity multiple-effect off-gas recovery according to claim 1 and smoke eliminator, it is characterized in that: described rotating mechanism is arranged in the gas passage of hypergravity reaction zone, rotating mechanism comprises rotating shaft and is connected with rotating shaft and the rotation filler of synchronous axial system; Rotate between filler and next stage hypergravity reaction zone and be provided with seal.

3. hypergravity multiple-effect off-gas recovery according to claim 2 and smoke eliminator, is characterized in that: described rotation filler is that silk screen rotates filler, is arranged at rotating shaft periphery in the form of a ring, by rotating disk and the affixed and synchronous axial system of rotating shaft.

4. the hypergravity multiple-effect off-gas recovery according to claim 1 or 3 and smoke eliminator, it is characterized in that: described rotating shaft is hollow tubular, tube wall corresponding rotation filler medium position is provided with some hole for water sprayings, is not communicated with in the rotating shaft of hypergravity reaction zone at different levels; Reactant liquor input mechanism is the woven hose be communicated with rotating shaft inside.

5. hypergravity multiple-effect off-gas recovery according to claim 4 and smoke eliminator, it is characterized in that: described reactant liquor input mechanism is a wherein fixing support column of the bearing spider for supporting shaft, this fixed bearing post hollow forms described woven hose, fixed bearing post position is diametrically provided with two support holes run through for rotating shaft, rotating shaft radial direction on the position between two support holes is provided with plural blasthole, and two supporting post holes seal with rotating shaft outer surface and contact.

6. hypergravity multiple-effect off-gas recovery according to claim 2 and smoke eliminator, is characterized in that: described seal adopts the labyrinth seal of ring-type.

7. hypergravity multiple-effect off-gas recovery according to claim 1 and smoke eliminator, it is characterized in that: the hypergravity reaction zone described in each is sequentially arranged in a horizontal housing by horizontal direction, gas passage is made up of the horizontal shell air inlet be communicated with successively, each hypergravity reaction zone, horizontal housing gas outlet.

8. hypergravity multiple-effect off-gas recovery according to claim 1 and smoke eliminator, is characterized in that: be fitted together to and the coaxial rotation that links together mutually by the recess of adjacent shafts termination and protuberance between the rotating shaft of hypergravity reaction zone described in each.

9. hypergravity multiple-effect off-gas recovery according to claim 1 and smoke eliminator, is characterized in that: the hypergravity reaction zone described in each is provided with separately independently reactant liquor recovering mechanism.

10. hypergravity multiple-effect off-gas recovery according to claim 1 and smoke eliminator, is characterized in that: pass through Flange joint between the hypergravity reaction zone described in each.