CN207056200U - A kind of glass fiber reinforced plastic desulfurization dust collector - Google Patents
A kind of glass fiber reinforced plastic desulfurization dust collector Download PDFInfo
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- CN207056200U CN207056200U CN201720960135.1U CN201720960135U CN207056200U CN 207056200 U CN207056200 U CN 207056200U CN 201720960135 U CN201720960135 U CN 201720960135U CN 207056200 U CN207056200 U CN 207056200U
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- flow distribution
- flue gas
- left shunt
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- distribution plate
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Abstract
The utility model discloses a kind of glass fiber reinforced plastic desulfurization dust collector,Including cabinet and it is arranged on the reservoir of described cabinet bottom,The internal Left shunt plate in hollow structure and right flow distribution plate are provided with above described reservoir,The upper surface of the lower surface of described Left shunt plate and described right flow distribution plate is contour to make segmentation on the inside of described cabinet form two cavitys up and down,The lower surface of described right flow distribution plate and described reservoir internal liquid level are contour,Uniform passage is respectively arranged with described Left shunt plate and described right flow distribution plate lower surface,The flue gas input pipe of the described right flow distribution plate of connection is provided with described case side wall,Uniform through hole is provided with above described Left shunt plate,Fiberglass demisting layer is provided with above described Left shunt plate,The utility model crosses the flow distribution plate inside using and realizes that flue gas disperses input and output,Flue gas is set fully to carry out dedusting and conveying,For improving the problem of existing glass-reinforced plastic dust remover efficiency of dust collection is not high.
Description
Technical field
Fiberglass apparatus field is the utility model is related to, specifically, refers to a kind of glass fiber reinforced plastic desulfurization dust collector.
Background technology
Glass fiber reinforced plastic desulfurization dust collector belongs to wet scrubber, is easy care the advantages of wet dust removal, and can be by preparing not
Same dedusting agent, while reach the effect of dedusting and desulfurization (denitrogenation).Because glass-reinforced plastic dust remover has good antiseptic effect,
Compared to other deduster structures, its structure is relatively light, simple installation.Flue gas is typically directly transported to by existing deduster to be removed
In dirt cabinet, flue gas is insufficient contact with liquid, it is necessary to set multigroup sprinkling equipment to be removed for removing the dust granules in flue gas
Dirt is inefficient.
Utility model content
The purpose of this utility model is:A kind of glass fiber reinforced plastic desulfurization dust collector is provided, it is real by using the flow distribution plate of inside
Existing flue gas disperses input and output, flue gas is fully carried out dedusting and conveying, is removed for improving existing glass-reinforced plastic dust remover
The problem of dirt is inefficient.
The technical solution adopted in the utility model is as follows:A kind of glass fiber reinforced plastic desulfurization dust collector, including cabinet and it is arranged on institute
The reservoir for the cabinet bottom stated, the internal Left shunt plate in hollow structure and right shunting are provided with above described reservoir
The upper surface of plate, the lower surface of described Left shunt plate and described right flow distribution plate is contour to form segmentation on the inside of described cabinet
Upper and lower two cavitys, the lower surface of described right flow distribution plate and described reservoir internal liquid level are contour, in described left shunt
Uniform passage is respectively arranged with plate and described right flow distribution plate lower surface, connection is provided with described case side wall
The flue gas input pipe of described right flow distribution plate, is provided with uniform through hole above described Left shunt plate, on a described left side point
Fiberglass demisting layer is provided with above flowing plate, uniform demisting hole is respectively arranged with described fiberglass demisting layer, described
Cabinet upper end be provided with flue gas exit pipe.
In summary, by adopting the above-described technical solution, the beneficial effects of the utility model are:
1. the utility model splits cabinet inside by using left and right flow distribution plate to form two parts up and down, can make to discard
Entered by extension input pipe in reservoir, it is interacted with liquid, its preliminary desulfurization operations is realized, due to right flow distribution plate
Lower surface and liquid levels it is contour, can make it is discarded be input in liquid, gas enters upper cavity by Left shunt plate, can
So that it to be further processed;
2. the utility model makes the gas containing water droplet be carried out again by fiberglass demisting layer by using glass demisting layer
Secondary processing, water droplet therein is attached on fiberglass demisting layer, flue gas is realized dehydration, and it is defeated by flue gas exit pipe
Go out, flue gas is handled by using fiberglass demisting layer, its water content can be made lower, while playing dust removing effects,
With good corrosion resistance, longer service life is made it have.
Optionally, preferably to realize the utility model, described fiberglass demisting layer is along described cabinet height side
To uniform at least three, the width in the demisting hole on adjacent described fiberglass demisting layer is sequentially reduced from bottom to top.By adopting
By the use of multiple fiberglass demisting layers as Defrosting structure, while can having more preferable treatment effect, the utility model is used and removed
The fiberglass demisting layer that mist hole is sequentially reduced, gradually the particulate matter in flue gas can filter off removing, made it have
More preferable dust separation effect.
Optionally, it is to recessed in the middle part of the upper and lower end face of described Left shunt plate preferably to realize the utility model
Sunken pyramidal structure, corresponding described passage are distributed in described pyramidal structure, set above described Left shunt plate
There is shower.By using the Left shunt plate of tapered structure, make during shower sprays flue gas, to remain in flue gas
Remaining solid particulate matter can be adsorbed flowing in reservoir by Left shunt plate in the presence of shower water, can aid in
Improve the efficiency of dust collection of flue gas.
Optionally, preferably to realize the utility model, current divider is provided with above described fiberglass demisting layer, institute
It is hollow structure in the middle part of the current divider stated, is provided with described current divider upper and lower end face empty inside the described current divider of connection
The through hole of chamber, be provided with the inside of described current divider it is uniform remove dustball in spherical, be provided with described removing on dustball
Cellular through hole.By using current divider, can making flue gas into current divider, scattered to be transported to flue gas defeated by current divider
Outlet pipe one end, remaining dust and noxious substance in flue gas in the cellular through hole on except dustball, can be had
There is higher efficiency of dust collection, dry decontamination flue gas is exported by extension efferent duct.
Optionally, preferably to realize the utility model, described reservoir is tapered, is set on the inside of described reservoir
Stirring vane is equipped with, the drive device for driving described stirring vane to rotate is provided with the inside of described reservoir.It is logical
Cross and use stirring vane, reservoir internal liquid can be stirred, increase the oxygen content in liquid, be favorably improved liquid
The dedusting adsorption efficiency of body.
Brief description of the drawings
The utility model will illustrate by example and with reference to the appended drawing, wherein:
Fig. 1 is the utility model overall structure diagram;
Fig. 2 is the utility model internal structure schematic diagram;
Fig. 3 is the utility model fiberglass demisting layer principle schematic.
Reference:Cabinet, 102. reservoirs, 103. passages, 104. flue gas input pipes, 105. Left shunt plates, 106.
Right flow distribution plate, 107. fiberglass demisting layers, 108. flue gas exit pipes, 109. showers, 110. current dividers, 111. remove dustball,
112. stirring vane.
Embodiment
All features disclosed in this specification, or disclosed all methods or during the step of, except mutually exclusive
Feature and/or step beyond, can combine in any way.
Existing glass fiber reinforced plastic desulfurization dust collector makes cigarette to improve fume treatment efficiency, it is necessary to set multigroup sprinkling equipment
Gas is contacted with spray liquid to remove which part particulate matter, due in most of flue gas uphill process, it is impossible to fully and spray liquid
Contact so that the particulate matter removal efficiencies in flue gas are high, and the dedusting device to top produces larger corrosivity, while a large amount of powder
Dirt and pernicious gas can not be removed by the fiberglass demister on top completely, make still have a small amount of be harmful in the flue gas of discharge
Material persists.
The utility model is elaborated with reference to Fig. 1, Fig. 2.
The utility model is delayed the defects of efficiency of dust collection existing for deduster is not high for existing fiberglass, to its inside
Structure is improved, and discloses a kind of glass fiber reinforced plastic desulfurization dust collector, including cabinet 101 and is arranged on the described bottom of cabinet 101
The reservoir 102 in portion, the internal Left shunt plate 105 in hollow structure and right shunting are provided with above described reservoir 102
The upper surface of plate 106, the lower surface of described Left shunt plate 105 and described right flow distribution plate 106 is contour to make described cabinet 101
Split to form two cavitys up and down, the lower surface of described right flow distribution plate 106 and the described internal liquid level of reservoir 102 etc. in inner side
Height, uniform passage 103 is respectively arranged with described Left shunt plate 105 and the described lower surface of right flow distribution plate 106,
The flue gas input pipe 104 of the described right flow distribution plate 106 of connection is provided with the described side wall of cabinet 101, in described left shunt
The top of plate 105 is provided with uniform through hole, and fiberglass demisting layer 107 is provided with above described Left shunt plate 105, described
Uniform demisting hole is respectively arranged with fiberglass demisting layer 107, the described upper end of cabinet 101 is provided with flue gas exit pipe
108.In the utility model, liquid reserve tank is set in cabinet bottom, for depositing desulfuration solution, makes Left shunt plate and right flow distribution plate will
Cabinet splits the demisting cavity to form top and the desulfurization cavity of bottom, flue gas is realized desulfurization by desulfurization cavity, in demisting
Cavity realizes demisting and deep purifying.
Make right flow distribution plate lower surface and desulfuration solution liquid level it is contour, the lower surface of Left shunt plate is higher than desulfuration solution
Liquid level, by fiberglass demisting layer be arranged on cabinet on the inside of, flue gas is entered desulfurization by the through hole on right flow distribution plate lower surface
Inside solution, flue gas easily enters fiberglass demisting layer by desulfurization by Left shunt plate, is then exported by flue gas delivery outlet.
When mounted, enable flue gas by the passage on right flow distribution plate lower surface completely into desulfuration solution inside,
Using desulfuration solution remove flue gas in partial vulcanization thing, make other particulate matters by partial adsorbates in desulfuration solution, gas by
Desulfuration solution is overflowed into the cavity between Left shunt plate lower surface and desulfuration solution, and the gas for being attached with a large amount of steam is formed
Water smoke enters Left shunt plate along the passage on Left shunt plate lower surface, in the utility model, makes on Left shunt plate lower surface
Passage and upper surface on through hole mutually stagger, water smoke has on Left shunt plate upper surface in dispersed in Left shunt plate
Through hole enters cabinet inside, and water smoke enters fiberglass demisting layer, carries out entering glass after cleaning again by fiberglass demisting layer
In cavity above glass steel demisting layer, exported along flue gas delivery outlet.
Because flue gas is directly dispersed into inside desulfuration solution by right flow distribution plate, flue gas is set to fully input desulfurization
In solution, most of sulfide and solid particulate matter in flue gas can be removed by desulfuration solution completely, by desulfuration solution
Particle content substantially reduces into the water smoke of Left shunt plate, then pass through top fiberglass demisting layer cleaned again,
Substantially reduce the content of the harmful substance in flue gas;During being input to desulfuration solution due to flue gas, flue gas can pass through
Passage is dispersed into desulfuration solution, makes the desulfuration efficiency of flue gas higher, can pass through a left side from the flue gas of desulfuration solution output
Flow distribution plate disperses again, the partial particulate thing in flue gas is attached to inside Left shunt plate, and gas can be along left shunt
Plate enters cabinet inside, can further improve the removal efficiency of pernicious gas;As shown in figure 3, using existing corrugated glass
Steel demister, during water smoke is by fiberglass demisting layer, liquid and fraction solids particulate matter therein can be gone again
Remove, substantially reduced from the content of the harmful substance in the flue gas of flue gas delivery outlet output.
The utility model enables flue gas directly molten with desulfurization by making pending flue gas be directly inputted in desulfuration solution
Liquid realizes impacting type dedusting, makes its dust-removal and desulfurizing effect more preferable, it is not easy to there is sulfide residual, using it is existing be in stratiform knot
The fiberglass demisting layer of structure, achieves the purification again to water smoke.Compared to existing structure, the utility model structure is relative
Simply, flue gas rapid dispersion dedusting can be made, the harmful substance in the flue gas of discharge is reduced, avoid environmental pollution.
In order to avoid flue gas is input in desulfuration solution, the desulfuration solution close to flue gas input is rapidly saturated, this practicality
In new, it is preferable that described reservoir 102 is tapered, and the described inner side of reservoir 102 is provided with stirring vane 112,
The described inner side of reservoir 102 is provided with the drive device for driving described stirring vane 112 to rotate.Make drive device band
When dynamic stirring vane rotates, it is in uniform state that can make desulfuration solution, enable flue gas along passage enter desulfuration solution when,
Desulfurization close to passage position is easily not easy to be rapidly saturated due to localized contact flue gas, and desulfuration solution can be made to keep equal
Even state, while the oxygen content of desulfuration solution can be increased, improve its desulfuration efficiency.
Embodiment 1:
In order to improve efficiency of dust collection, in the present embodiment, it is preferable that described fiberglass demisting layer 107 is along described machine
The uniform at least three of the short transverse of case 101, the width in the demisting hole on adjacent described fiberglass demisting layer 107 is from bottom to top
It is sequentially reduced.In the present embodiment, it is in longitudinally disposed to make compound glass steel demisting layer, it is repeatedly handled water smoke, passes through
The width in the demisting hole on fiberglass demisting layer is gradually reduced, there can be higher cleaning efficiency.
Due to that in the gradual floating-upward process of water smoke, wherein moisture can be removed by compound glass steel demisting layer and residue is harmful
Material, water smoke gradually move up, and water droplet therein constantly reduces, and gas gradually exports along demisting hole to flue gas delivery outlet direction.
Using the demisting hole being gradually reduced, the water droplet in gas can be removed, preferably realizes the effect for removing water.
Embodiment 2:
In order that water droplet caused by the flue gas purified by fiberglass demisting layer enters in desulfuration solution, in the present embodiment,
Preferably, the upper and lower end face middle part of described Left shunt plate 105 is the pyramidal structure to lower recess, accordingly described passage
103 are distributed in described pyramidal structure, and shower 109 is provided with above described Left shunt plate 105.By setting in cone
The Left shunt plate of shape structure, the liquid of shower is entered along Left shunt plate in desulfuration solution, avoid liquid in demisting
Accumulated in cavity.
Because the upper and lower end face of Left shunt plate is concave inward structure, the surface area of Left shunt plate can be increased, pass through water smoke
When crossing Left shunt plate to demisting Cavity Flow, can more disperse, so can more fully with shower spray liquid
Contact, helps further to improve its efficiency of dust collection.
Embodiment 3:
In order to further reduce the harmful substance contents in discharge flue gas, in the present embodiment, above fiberglass demisting layer
There is provided dedusting structure again, it is preferable that current divider 110, described point are provided with above described fiberglass demisting layer 107
It is hollow structure to flow the middle part of device 110, is provided with the described upper and lower end face of current divider 110 in the described current divider 110 of connection
The through hole of portion's cavity, be provided with the inner side of described current divider 110 it is uniform remove dustball 111 in spherical, in described dedusting
Cellular through hole is provided with ball 111.Flue gas by hollow current divider to flue gas delivery outlet flow when, it is remaining in flue gas
A small amount of water droplet can be attached to inside current divider, flue gas is exported in dry-form, due to being provided with current divider except dustball, profit
With its alveolate texture, the harmful substance and water droplet in flue gas can be adsorbed again, discharge flue gas more dry decontamination.
Claims (5)
1. a kind of glass fiber reinforced plastic desulfurization dust collector, including cabinet (101) and the reservoir for being arranged on described cabinet (101) bottom
(102), it is characterised in that:Be provided with above described reservoir (102) the internal Left shunt plate (105) in hollow structure and
Right flow distribution plate (106), the upper surface of the lower surface of described Left shunt plate (105) and described right flow distribution plate (106) is contour to be made
Segmentation forms two cavitys up and down, the lower surface of described right flow distribution plate (106) and described storage on the inside of described cabinet (101)
Liquid bath (102) internal liquid level is contour, in described Left shunt plate (105) and described right flow distribution plate (106) lower surface respectively
Uniform passage (103) is provided with, the described right flow distribution plate (106) of connection is provided with described cabinet (101) side wall
Flue gas input pipe (104), uniform through hole is provided with above described Left shunt plate (105), in described Left shunt plate
(105) top is provided with fiberglass demisting layer (107), and uniform remove is respectively arranged with described fiberglass demisting layer (107)
Mist hole, described cabinet (101) upper end is provided with flue gas exit pipe (108).
A kind of 2. glass fiber reinforced plastic desulfurization dust collector according to claim 1, it is characterised in that:Described fiberglass demisting layer
(107) it is along the uniform at least three of described cabinet (101) short transverse, on adjacent described fiberglass demisting layer (107)
The width in demisting hole is sequentially reduced from bottom to top.
A kind of 3. glass fiber reinforced plastic desulfurization dust collector according to claim 1 or 2, it is characterised in that:Described Left shunt plate
(105) it is the pyramidal structure to lower recess in the middle part of upper and lower end face, corresponding described passage (103) is distributed on described cone
In shape structure, shower (109) is provided with above described Left shunt plate (105).
A kind of 4. glass fiber reinforced plastic desulfurization dust collector according to claim 1 or 2, it is characterised in that:Removed in described fiberglass
Current divider (110) is provided with above mist layer (107), is hollow structure in the middle part of described current divider (110), in described current divider
(110) through hole of described current divider (110) internal cavities of connection is provided with upper and lower end face, in described current divider (110)
Inner side be provided with it is uniform remove dustball (111) in spherical, be provided with cellular through hole on dustball (111) in described removing.
A kind of 5. glass fiber reinforced plastic desulfurization dust collector according to claim 1 or 2, it is characterised in that:Described reservoir (102)
It is tapered, stirring vane (112) is provided with the inside of described reservoir (102), is set on the inside of described reservoir (102)
There is the drive device for driving described stirring vane (112) to rotate.
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CN201720960135.1U CN207056200U (en) | 2017-08-02 | 2017-08-02 | A kind of glass fiber reinforced plastic desulfurization dust collector |
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CN201720960135.1U CN207056200U (en) | 2017-08-02 | 2017-08-02 | A kind of glass fiber reinforced plastic desulfurization dust collector |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109569192A (en) * | 2019-01-10 | 2019-04-05 | 燕山大学 | A kind of dry type desulfurizing denitration dust collecting integral equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109569192A (en) * | 2019-01-10 | 2019-04-05 | 燕山大学 | A kind of dry type desulfurizing denitration dust collecting integral equipment |
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