CN203803334U - Absorption tower including wet-type electric demister - Google Patents

Abstract

The utility model discloses an absorption tower including a wet-type electric demister. Along a smoke flow direction, the absorption tower comprises a slurry tank (2), an absorption zone (3) and an absorption tower top (7) which are sequentially communicated from bottom to top, wherein an absorption tower inlet (1), a spray layer (4) and a mechanical demister (5) are sequentially arranged in the absorption zone (3) along the smoke flow direction; the wet-type electric demister (6) is arranged in a region between the mechanical demister (5) and the absorption tower top (7); and a spray flushing device (9) is arranged above the wet-type electric demister (6), and a flushing water collecting device (8) is arranged below the wet-type electric demister (6). By adding the flushing water collecting device below the wet-type electric demister, a technical bottleneck that the wet-type electric demister adopting a receiving electrode cannot be internally arranged above the absorption tower is overcome; moreover, the absorption tower can make effective utilization of a field space and is small in occupied space; and flushing water is recycled, so as to save water resource.

Description

A kind of absorption tower that includes wet type electrostatic precipitator

Technical field

The utility model relates to flue gas desulfurization field, is specifically related to a kind of absorption tower that includes wet type electrostatic precipitator.

Background technology

In recent years, countries in the world are more and more paid attention to environmental protection, and environment protectment protection is increasingly strict.Be subject to the restriction of discharge standard, some developed countries remove the SO discharging in flue gas ₂, NOx and flue dust take outside effective control measures, agenda that the reduction of discharging of the pollutant that fine flue dust, mercury etc. exist with aerosol form is referred.

Up to the present, China is mainly SO to the pollutant emission restriction of coal smoke type ₂and flue dust.Coal-burning power plant's generating set overwhelming majority is all provided with dedusting and desulfurizer, and wherein wet desulfurizing process accounts for 90% left and right of whole desulfurizers.

Though wet desulfurizing process has the advantage such as high desulfurization rate, high availability, the intrinsic problem of its existence also day by day displays in actual motion, mainly contains:

A) GGH (flue gas heat-exchange unit) resistance is large, power consumption is high, easily obstruction, has a strong impact on the normal operation of system;

B) during without GGH, gypsum solid particle, water smoke descend slowly and lightly and cause local influence, and white plume causes landscape pollution;

C) SO in clean flue gas ₃to the cold end corrosion of chimney;

D) NH that denitration or the ammonia process of desulfurization etc. bring ₃escape problem;

E) the following emission limit set to fine flue dust (PM2.5), mercury etc.

Because the problems referred to above can not get effective solution, manufacturing enterprise, the periphery masses and even environmental administration are caused to more and more serious puzzlement.

Existing flue gas desulfur device has mostly been installed baffle plate type machinery demister, and it is to utilize the inertia force of slurries drop to separate, and when size droplet diameter is little to a certain extent time, mechanical demister has just lost separating power.General its minimum grain size that can remove is 40～50 μ m, and particle diameter is less than the drop of 40 μ m and fine dust, particulate etc. and cannot removes.

Separate in order to solve the assorted dirt that the particle diameter such as fine dust, particulate is little, conventionally adopt WESP (wet type electrostatic precipitator) to separate.Wet type electrostatic precipitator has in tower conventionally to be arranged and two kinds of forms of the outer layout of tower, tower arranges that floor space is larger outward, generally be applicable to new-built unit, for the desulfurizer having built up in a large number for China, in tower, arrange and be used widely because compact conformation floor space is little.

The outer wet electrical dust precipitator of arranging of tower is owing to being a separate payment that is independent of absorption tower system, and its a large amount of flushing water can be disposed separately, generally collects by the ash bucket that is arranged on deduster bottom, implements comparatively simple and is easy to realize.And for being placed on the wet type electrostatic precipitator at top, absorption tower, a large amount of flushing waters directly falls to slurry pool, because heat and moisture that flue gas can be taken away are fixed, certainly will cause the continuous rising of slurry pool liquid level, and then the water balance on absorption tower destruction, final whole system paralysis.

Utility model content

The purpose of this utility model is to provide a kind of absorption tower that includes wet type electrostatic precipitator, by increase flushing water gathering-device under wet type electrostatic precipitator, thereby has overcome the technical bottleneck of taking the wet type electrostatic precipitator of receiving electrode can not be built in cooling tower top.

Concrete scheme is: a kind of absorption tower that includes wet type electrostatic precipitator, include from bottom to up the slurry pool, uptake zone and the top, absorption tower that are communicated with successively along flow of flue gas direction, be provided with successively absorption tower entrance, spraying layer and mechanical demister in uptake zone along flow of flue gas direction, region between described mechanical demister and top, absorption tower is provided with wet type electrostatic precipitator, directly over wet type electrostatic precipitator, be provided with spray irrigation device, under be provided with flushing water gathering-device.

More specifically, described wet type electrostatic precipitator includes top shell, central enclosure and lower case, in central enclosure, be provided with the some groups of receiving electrodes that are arranged in parallel, between every two group precipitation utmost points, be furnished with cathode line, the distance of every group of cathode line and adjacent receiving electrode is consistent, cathode line is fixed and spacing by being arranged on the corona electrode device on receiving electrode top and the weight position-limited rack of bottom, the cathode line in corona electrode device by coupling tunnel II and coupling tunnel I respectively with band lead wire insulation case and be not with lead wire insulation case to be connected.

As a kind of embodiment of flushing water gathering-device, described precipitation is very board-like.Described flushing water gathering-device comprise be arranged at the drain tank under each receiving electrode and be positioned at drain tank below and and the drainpipe of drain tank connection, drainpipe passes lower case and is connected with mouthful I that drains that is arranged on hull outside.

For the first embodiment of flushing water gathering-device, described drain tank is U-shaped or the semicircle with straight section water conservancy diversion.

As the second embodiment of flushing water gathering-device, the drainpipe that described flushing water gathering-device includes some groups of gas passage elements, fluid passage element and is connected with fluid passage element, drainpipe is connected with mouthful II that drains that is arranged on hull outside through the lower case of wet type electrostatic precipitator.

For the second embodiment of flushing water gathering-device, described gas passage element comprises passage cardinal extremity, the top of each passage cardinal extremity is provided with protective plate, has the circular hole of some on passage cardinal extremity, by circular hole, the bottom flue gas of flushing water gathering-device is communicated with upper smoke gas phase.

More excellent, described passage cardinal extremity is horizontal cuboid or vertical cylinder, and each cuboid is parallel to each other, and each cuboid width is 180～300mm; Adjacent cylinder line is parallel to each other, and each cylinder diameter is 180～300mm.

As a kind of arrangement of vertical passage cardinal extremity, described vertical passage cardinal extremity is equilateral triangle end points and extends layout.

As the another kind of arrangement of vertical passage cardinal extremity, described vertical passage cardinal extremity is square end points and extends layout.

More excellent, described protective plate is taper, its top angle is 50～70 °.

More excellent, described in drain mouthful I or drain waste water that mouthful II the collects flushing water as mechanical demister.

More excellent, described in drain mouthful I or drain waste water that mouthful II the collects flushing water as spray irrigation device after adding alkali neutralization, filtering.

More specifically, described spray irrigation device includes the wash tub pipe that some groups of horizontal parallel are arranged, is evenly provided with several nozzles on every wash tub pipe, and wash tub pipe is connected with the flushing water interface outside absorption tower.

More excellent, described receiving electrode adopts stainless steel, fiberglass (FRP), polypropylene (PP) or polyvinyl chloride (PVC) material to make.

More excellent, described gas passage element adopts stainless steel, fiberglass (FRP), polypropylene (PP) or polyvinyl chloride (PVC) material to make.

More excellent, described cathode line is nickel-chromium silk or the steel wire of millimeter.

The utility model is taked said structure, compared to existing technology, has following beneficial effect:

A) wet type electrostatic precipitator top is provided with spray irrigation device, bottom is provided with flushing water gathering-device, most of flushing water is collected to reuse, while avoiding flushing water to drop downwards, contact and cause reentrainment with flue gas adverse current, affect wet type demister operational effect, can realize the reuse of flushing water, also can not impact the liquid level on absorption tower and water balance therefore the wet type electrostatic precipitator that adopts receiving electrode is integrated in to top, absorption tower simultaneously;

B) adopt receiving electrode, cross-sectional flow area is large, is 1.2 times of left and right of tubular demister, and body pressure drop is low, is about 300Pa;

C) wet type electrostatic precipitator is arranged on top, absorption tower, can effectively utilize space, place, and floor space is little;

D) WESP adopts the continuous deashing of waterpower, can not produce secondary smoke and fly upward problem, can effectively remove the aerosol particles such as acid mist, flue dust, can reach following performance indications:

SO ₃acid mist clearance: 80%-95%;

Water smoke clearance: >=95%;

Flue dust clearance: >=95%;

Mercury clearance: >=90%;

E) waste water, from mouthful outflow that drains of flushing water gathering-device, can directly import the flushing water of spraying layer as mechanical demister by pump; After adding alkali neutralization, filtering, also can import the purge water interface of spray irrigation device as the flushing water of wet type electrostatic precipitator, recycle saving water resource.

Brief description of the drawings

Fig. 1 is absorption tower of the present utility model overall structure schematic diagram.

Fig. 2 is the wet type electrostatic precipitator structural representation that the utility model comprises the first flushing water gathering-device.

Fig. 3 is the first embodiment structural representation of drain tank of the present utility model.

Fig. 4 is the second embodiment structural representation of drain tank of the present utility model.

Fig. 5 is the wet type electrostatic precipitator structural representation that the utility model comprises the second flushing water gathering-device.

Fig. 6 is the schematic top plan view (the first form of implementation of passage cardinal extremity) of the utility model the second flushing water gathering-device.

Fig. 7 is that the master of the utility model the second flushing water gathering-device looks schematic diagram (the first form of implementation of passage cardinal extremity).

Fig. 8 is the schematic top plan view (the first arrangement of the second form of implementation of passage cardinal extremity) of the utility model the second flushing water gathering-device.

Fig. 9 is the schematic top plan view (the second arrangement of the second form of implementation of passage cardinal extremity) of the utility model the second flushing water gathering-device.

Figure 10 is that the master of the utility model the second flushing water gathering-device looks schematic diagram (the second form of implementation of passage cardinal extremity)

Figure 11 is spray irrigation apparatus structure schematic diagram of the present utility model.

Figure 12 is absorption tower of the present utility model workflow diagram.

Description of reference numerals:

1-absorption tower entrance; 2-slurry pool; 3-uptake zone; 4-spraying layer; 5-machinery demister; 6-wet type electrostatic precipitator; Top, 7-absorption tower; 8-flushing water gathering-device; 9-spray irrigation device;

601-weight position-limited rack; 602-corona electrode device; 603-coupling tunnel II; 604-band lead wire insulation case; 605-coupling tunnel I; 607-top shell; 608-is not with lead wire insulation case; 609-central enclosure; 610-cathode line;

611-receiving electrode;

801-drain tank; 802-drainpipe; 803-drains a mouthful I;

81-gas passage element; 82-fluid passage element; 83-drainpipe; 84-drains a mouthful II;

811-passage cardinal extremity; 812-circular hole; 813 protective plates.

Detailed description of the invention

Below in conjunction with embodiment, the utility model is described in further detail, but protection domain of the present utility model is not limited to this:

A kind of absorption tower that includes wet type electrostatic precipitator of the present utility model as Figure 1-Figure 11, concrete structure, as shown in utility model content, repeats no more.

By reference to the accompanying drawings 12, a kind of absorption tower workflow that includes wet type electrostatic precipitator of the present utility model is described:

Flue gas enters absorption tower from absorption tower entrance 1, first in the spraying layer 4 of uptake zone 3, prewets, and the gas after prewetting carries out demist in mechanical demister 5.

Machinery demist principle is: mechanical demister 5 comprises multiple deflection plates, and flue is divided into some bottom flues (further can be provided with groove on deflection plate) by deflection plate.Enter the passage that is separated into many sub-threads after mechanical demister 5 containing the gas of mist; Under the effect of inertia force, the collision of drop mist is at the upper liquid film that forms of deflection plate (or being with fluted deflection plate); Liquid film moves forward to air-flow that turning is separated gets off; The drop mist not being removed is thoroughly separated by identical effect at lower several turnings.

Flue gas after mechanical demister 5 obtains preliminary demist, but still residual particle diameter is less than the drop of 40 μ m and fine dust, particulate.At this moment, flue gas enters wet type electrostatic precipitator 6 and carries out further demist.

Wet type electricity demist principle is: wet type electrostatic precipitator 6 comprises cathode line 610, receiving electrode 611, insulated case and HVDC power supply, and wherein cathode line 610 is negative electrode, and receiving electrode 611 is anode.Connect after high-voltage DC power supply, between the two poles of the earth, formed non-homogeneous high-voltage electrostatic field.Under the effect of electric field, cathode line 610 produces corona layer around.Air generation avalanche type ionization in corona layer, thus a large amount of anions and a small amount of cation produced, and this process is called corona discharge.

When flue gas enters electric-field charge district, the particles such as acid mist, flue dust are by charged.The particle electrification such as acid mist, flue dust cohesion after charged is strengthened, and particle diameter increases, and carrying capacity increases, and arrives at rapidly anode (receiving electrode 611) under the effect of electric field force.A large amount of acid mist particles are constantly driven to anode, discharge rapidly electric charge simultaneously, thereby reach the object that the aerosol particles such as acid mist, flue dust separates with flue gas.

In wet type electricity demist process, flushing water is collected by draining mouthful I803 or draining a mouthful II84 of flushing water gathering-device 8, and the flushing water after collection can drive the flue gas that directly importing spraying layer 4 carries out mechanical demist step to prewet by pump; Also can after adding alkali neutralization, filtration, import spray irrigation device 9 adopts the continuous deashing of waterpower to remove the aerosol particles such as acid mist, flue dust that adheres to receiving electrode 611.Recycle the effect of energy-conserving and environment-protective thereby reach flushing water.

According to different engineering-environments, also can take multiple mechanical demist steps, wet type electricity demist step successively the mode of cascade carry out multistage demist.

Flue gas after final purification is discharged from top, absorption tower 7.

Further, several embodiments of flushing water gathering-device 8 are analyzed.

In conjunction with Fig. 2-Fig. 4, be the first flushing water gathering-device, this device utilization is carried out flushing water collection by drain tank 801.As shown in Figure 3, flushing water directly drops and flows out from draining mouthful I803 by drainpipe 802 after semicircular drain tank 801.As shown in Figure 4, flushing water directly drops after the drain tank 801 of U-shaped and flows out from draining mouthful I803 by drainpipe 802.

In conjunction with Fig. 5-Figure 10, be the second flushing water gathering-device, this device utilizes fluid passage element 82 to carry out flushing water collection.

As Figure 6-Figure 7, be the first form of implementation of passage cardinal extremity 811 parts of the second flushing water gathering-device.In the present embodiment, passage cardinal extremity 811 is horizontal cuboid, and each cuboid is arranged in parallel, thereby the chassis of flushing water gathering-device is divided into gas passage element 81 and fluid passage element 82.More excellent, corresponding board-like receiving electrode directly over fluid passage element 82.

As Figure 8-Figure 10, be the second form of implementation of passage cardinal extremity 811 parts of the second flushing water gathering-device.In the present embodiment, passage cardinal extremity 811 is vertical cylindrical, and adjacent cylinder line is parallel to each other, thereby the chassis of flushing water gathering-device is divided into gas passage element 81 and fluid passage element 82.More excellent, corresponding tubular type receiving electrode directly over fluid passage element 82.Further, Fig. 8 and Fig. 9 have provided respectively two kinds of arrangements of vertical passage cardinal extremity 811: as shown in Figure 8, passage cardinal extremity 811 is equilateral triangle end points and extends layout; As shown in Figure 9, passage cardinal extremity 811 is square end points extension layout; Can select the arrangement of best passage cardinal extremity 811 according to different tubular type receiving electrode arrangements.

When the work of wet type electrostatic precipitator, flushing water adsorbs receiving electrode the impurity such as acid mist, flue dust from top to bottom to be taken away to the chassis of flushing water gathering-device, because protective plate 83 is airtight taper, therefore dropping down onto on protective plate 83 in dropping process, flushing water also can from flushing water gathering-device, not flow out.Final flushing water is wandered to fluid passage element 82 and by drainpipe 83 and is flowed out from draining mouthful II84.Meanwhile, offer circular hole 812 on passage cardinal extremity 811, treat that demist gas passes from this circular hole 812, total flow area of circular hole 812 is 0.9～1.1 times of absorption tower cross-sectional area, can not affect because circular hole 812 circulation areas are not enough the demist efficiency of system.More excellent, circular hole 812 is opened in the middle and upper part of passage cardinal extremity 811, when flushing water circulates in fluid passage element 82, ensures that its water level can not overflow from circular hole 812.

In conjunction with detailed description of the invention, those skilled in the art are not paying the simple transformation of making under the prerequisite of creative work, within all should falling into the protection domain of this patent.

Claims (10)

1. one kind includes the absorption tower of wet type electrostatic precipitator, include from bottom to up the slurry pool (2) being communicated with successively along flow of flue gas direction, uptake zone (3) and top, absorption tower (7), in uptake zone, (3) are provided with absorption tower entrance (1) successively along flow of flue gas direction, spraying layer (4) and mechanical demister (5), it is characterized in that: the region between described mechanical demister (5) and top, absorption tower (7) is provided with wet type electrostatic precipitator (6), directly over wet type electrostatic precipitator (6), be provided with spray irrigation device (9), under be provided with flushing water gathering-device (8).

2. a kind of absorption tower that includes wet type electrostatic precipitator according to claim 1, it is characterized in that: described wet type electrostatic precipitator (6) includes top shell (607), central enclosure (609) and lower case (615), in central enclosure (609), be provided with the some groups of receiving electrodes that are arranged in parallel (611), between every two group precipitation utmost points (611), be furnished with cathode line (610), every group of cathode line (610) is consistent with the distance of adjacent receiving electrode (611), cathode line (610) is fixed also spacing by being arranged on the corona electrode device (602) on receiving electrode (611) top and the weight position-limited rack (601) of bottom, cathode line (610) in corona electrode device (602) by coupling tunnel II (603) and coupling tunnel I (605) respectively with band lead wire insulation case (604) and be not with lead wire insulation case (608) to be connected.

3. a kind of absorption tower that includes wet type electrostatic precipitator according to claim 2, it is characterized in that: described receiving electrode (611) is for board-like, described flushing water gathering-device (8) comprise be arranged at the drain tank (801) under each receiving electrode (611) and be positioned at drain tank (801) below and and the drainpipe (802) of drain tank (801) connection, drainpipe (802) passes lower case (615) and is connected with mouthful I (803) that drains that is arranged on hull outside.

4. a kind of absorption tower that includes wet type electrostatic precipitator according to claim 3, is characterized in that: described drain tank (801) is for U-shaped or with the semicircle of straight section water conservancy diversion.

5. a kind of absorption tower that includes wet type electrostatic precipitator according to claim 3, it is characterized in that: the drainpipe (83) that described flushing water gathering-device (8) includes some groups of gas passage elements (81), fluid passage element (82) and is connected with fluid passage element (82), drainpipe (83) is connected with mouthful II (84) that drains that is arranged on hull outside through the lower case (615) of wet type electrostatic precipitator.

6. a kind of absorption tower that includes wet type electrostatic precipitator according to claim 5, it is characterized in that: described gas passage element (81) comprises passage cardinal extremity (811), the top of each passage cardinal extremity (811) is provided with protective plate (813), the circular hole (812) that has some on passage cardinal extremity (811), is communicated with the bottom flue gas of flushing water gathering-device by circular hole (812) with upper smoke gas phase.

7. a kind of absorption tower that includes wet type electrostatic precipitator according to claim 6, it is characterized in that: described passage cardinal extremity (811) is horizontal cuboid or vertical cylinder, each cuboid is parallel to each other, and each cuboid width is 180～300mm; Adjacent cylinder line is parallel to each other, and each cylinder diameter is 180～300mm.

8. a kind of absorption tower that includes wet type electrostatic precipitator according to claim 6, is characterized in that: described protective plate (813) is taper, and its top angle is 50～70 °.

9. according to a kind of absorption tower that includes wet type electrostatic precipitator described in claim 5～8 any one, it is characterized in that: described in drain a mouthful I (803) or drain waste water that a mouthful II (84) collects as the flushing water of mechanical demister (5).

10. according to a kind of absorption tower that includes wet type electrostatic precipitator described in claim 5～8 any one, it is characterized in that: described in drain a mouthful I (803) or drain waste water that a mouthful II (84) the collects flushing water as spray irrigation device (9) after adding alkali neutralization, filtering.