CN204973519U - Energy -conserving desulfurizing tower with multitube atomizing device - Google Patents
Energy -conserving desulfurizing tower with multitube atomizing device Download PDFInfo
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- CN204973519U CN204973519U CN201520387859.2U CN201520387859U CN204973519U CN 204973519 U CN204973519 U CN 204973519U CN 201520387859 U CN201520387859 U CN 201520387859U CN 204973519 U CN204973519 U CN 204973519U
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- tower body
- fixedly connected
- atomising device
- atomizer
- multitube
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Abstract
The utility model relates to an energy -conserving desulfurizing tower with multitube atomizing device, including the tower body. The utility model discloses an energy -conserving desulfurizing tower with multitube atomizing device is through the guide pipe connection atomizer and the layer of flow equalizing, pending abandonment directly upwards flows through the honeycomb duct, then pass atomizing device through water conservancy diversion pipe, concentrate the atomizing through the shower nozzle inside the honeycomb duct, can also effectively reduce water waste when promoting atomization efficiency, electric power is extravagant, reduce the corruption of the sulphide of reaction to the tower body inner wall, and reduce the mobile speed of waste gas through the less water conservancy diversion pipe of bore, the time of extension in the honeycomb duct, extension reaction time, feasible atomizing is more abundant, and the honeycomb duct adopts detachable installation, the production and maintenance cost is greatly reduced, it is used for monitoring atomizing device jam situation to set up the liquid flow sensor bottom the honeycomb duct, promote the security of desulfurizing tower.
Description
Technical field
The utility model relates to a kind of energy-saving desulfurizing tower with multitube atomising device.
Background technology
In the production process of the industries such as current thermal power plant, environmental protection, oil, chemical industry, light industry, metallurgy, due to the pollutant such as flue dust, sulfide that fire coal can produce.If very large harm can be caused to environment directly to airborne release pollutant, therefore need to carry out removing to the pollutant in waste gas before discharge to administer, the administering method of this pollutant comprises dry method before, wet method and half wet process, be atomized by the sulfide of atomising device to desulfurizing tower inside, but traditional atomising device structure is simple, working method is single, mainly reacted with the waste gas of tower body inside by large-area ejection water smoke, so not only larger to water resource waste, energy ezpenditure is large, and Long-Time Service is also larger to the corrosion of desulfurizing tower inside, the contamination situation of desulfurizing tower inwall is very serious.
Utility model content
The technical problems to be solved in the utility model is: in order to solve the prior art Problems existing in above-mentioned background technology, a kind of energy-saving desulfurizing tower with multitube atomising device of improvement is provided, the atomising device structure solved in common desulphurization tower is simple, working method is single, mainly reacted with the waste gas of tower body inside by large-area ejection water smoke, so not only larger to water resource waste, energy ezpenditure is large, and Long-Time Service is also comparatively large to the corrosion of desulfurizing tower inside, the problem that the contamination situation of desulfurizing tower inwall is very serious.
The utility model solves the technical scheme that its technical problem adopts: a kind of energy-saving desulfurizing tower with multitube atomising device, comprise tower body, on the left of tower body, outer wall is fixedly connected with and the flue of tower body intracavity inter-connection for external connection row smoke pipe, tower body inside is positioned at below flue and is fixedly connected with water conservancy diversion filter, on the right side of tower body, the nearly lower end of inwall is fixedly connected with agitating device, tower body inside is positioned at above flue and is fixedly connected with equal fluid layer, equal fluid layer is provided with some mozzles, mozzle lower end is fixedly connected with equal fluid layer through equal fluid layer, tower body inside is positioned at above mozzle and is fixedly connected with atomising device, atomising device comprises lateral wall and tower body inside is fixedly connected with dividing plate and is positioned at the atomizer of dividing plate lower surface, the nearly lower end of tower body left side wall is fixedly connected with electric water pump, the feed tube of electric water pump penetrates tower body outer wall and is connected with tower body inside, on the left of tower body, outer wall is fixedly connected with the external woven hose that lower end is connected with electric water pump liquid outlet, external woven hose upper end penetrates dividing plate by feed tube and is connected with the atomizer of dividing plate lower surface, atomizer lateral wall is fixedly connected with cover cap, cover cap lower end is fixedly connected with mozzle upper end open, atomizer center is fixedly connected with water conservancy diversion pipe, mozzle is connected with atomising device upper end with dividing plate through atomizer by the sub-pipe of water conservancy diversion, mozzle lower ending opening position is fixedly connected with the liquid flow sensor for monitoring atomizer blockage.
Further, be conveniently vented, tower body inside is positioned at above atomising device and is fixedly connected with demister.
Further, conveniently Exhaust Gas, the nearly upper end of tower body outer right wall is fixedly connected with the gas outlet with tower body intracavity inter-connection.
Further, conveniently remove the gred, tower body bottom is positioned on the right side of water conservancy diversion filter and is provided with slag notch.
The beneficial effects of the utility model are, a kind of energy-saving desulfurizing tower with multitube atomising device of the present utility model connects atomizer and equal fluid layer by mozzle, pending discarding directly upwards is flowed by mozzle, then the sub-pipe of water conservancy diversion is passed through through atomising device, undertaken concentrating atomization by shower nozzle in mozzle inside, effectively water resource waste can also be reduced while lifting nebulization efficiency, power wastage, reduce the sulfide of reaction to the corrosion of tower body inwall, and the flowing velocity of waste gas is reduced by the sub-pipe of water conservancy diversion that bore is less, extend the time in mozzle, extend the reaction time, make atomization more abundant, and mozzle adopts detachable installation, greatly reduce and produce and maintenance cost, liquid flow sensor is set bottom mozzle and is used for Monitoring of Fog gasifying device blockage, promote the security of desulfurizing tower.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the utility model is further illustrated.
Fig. 1 is structural representation of the present utility model.
Fig. 2 is the sectional view of atomising device in the utility model.
In figure: 1. tower body, 2. flue, 3. water conservancy diversion filter, 4. agitating device, 5. equal fluid layer, 6. mozzle, 7. atomising device, 7-1. dividing plate, 7-2. atomizer, 8. electric water pump, 9. feed tube, 10. external woven hose, 11. feed tubes, 12. cover caps, 13. water conservancy diversion pipes, 14. liquid flow sensors, 15. demisters, 16. gas outlets, 17. slag notches.
Detailed description of the invention
By reference to the accompanying drawings the utility model is described in further detail now.These accompanying drawings are the schematic diagram of simplification, only basic structure of the present utility model are described in a schematic way, and therefore it only shows the formation relevant with the utility model.
A kind of energy-saving desulfurizing tower with multitube atomising device shown in Fig. 1 and Fig. 2, comprise tower body 1, on the left of tower body 1, outer wall is fixedly connected with and the flue 2 of tower body 1 intracavity inter-connection for external connection row smoke pipe, tower body 1 inside is positioned at below flue 2 and is fixedly connected with water conservancy diversion filter 3, on the right side of tower body 1, the nearly lower end of inwall is fixedly connected with agitating device 4, tower body 1 inside is positioned at above flue 2 and is fixedly connected with equal fluid layer 5, equal fluid layer 5 is provided with eight mozzles 6, mozzle 6 lower end is fixedly connected with equal fluid layer 5 through equal fluid layer 5, tower body 1 inside is positioned at above mozzle 6 and is fixedly connected with atomising device 7, atomising device 7 comprises lateral wall and tower body 1 inside is fixedly connected with dividing plate 7-1 and is positioned at the atomizer 7-2 of dividing plate 7-1 lower surface, the nearly lower end of tower body 1 left side wall is fixedly connected with electric water pump 8, the feed tube 9 of electric water pump 8 penetrates tower body 1 outer wall and is connected with tower body 1 inside, on the left of tower body 1, outer wall is fixedly connected with the external woven hose 10 that lower end is connected with electric water pump 8 liquid outlet, external woven hose 10 upper end penetrates dividing plate 7-1 by feed tube 11 and is connected with the atomizer 7-2 of dividing plate 7-1 lower surface, atomizer 7-2 lateral wall is fixedly connected with cover cap 12, cover cap 12 lower end is fixedly connected with mozzle 6 upper end open, atomizer 7-2 center is fixedly connected with the sub-pipe 13 of water conservancy diversion, mozzle 6 is connected with atomising device 7 upper end with dividing plate 7-1 through atomizer 7-2 by the sub-pipe 13 of water conservancy diversion, mozzle 6 lower ending opening position is fixedly connected with the liquid flow sensor 14 for monitoring atomizer 7-2 blockage.
Operation principle: it is inner that industrial waste gas enters tower body 1 by flue 2, then mozzle 6 is entered by equal fluid layer 5, then the atomizer 7-2 on atomising device 7 directly carries out atomizing to discarded in mozzle 6 inside, be atomized the gas processed and enter atomising device 7 upper end by the sub-pipe 13 of water conservancy diversion, be for further processing, then the sulfide of post liquefaction enters bottom tower body 1 downwards along mozzle 6, then water conservancy diversion filter 3 is passed through by solid and fluid separation applications, liquid after separation again enters atomising device 7 by electric water pump 8 and carries out atomization process to discarded, recycle water resource, liquid flow sensor 14 bottom mozzle 6 is by obtaining the stopping state of atomizer 7-2 to the measurement of dirty waste liquid flow, if flow obviously reduces, be exactly that atomizer 7-2 above this liquid flow sensor 14 blocks, need cleaning or change, greatly simplify maintenance difficulties.
Further, conveniently be vented, tower body 1 inside is positioned at above atomising device 7 and is fixedly connected with demister 15, further, conveniently Exhaust Gas, the nearly upper end of tower body 1 outer right wall is fixedly connected with the gas outlet 16 with tower body 1 intracavity inter-connection, further, conveniently remove the gred, tower body 1 bottom is positioned on the right side of water conservancy diversion filter 3 and is provided with slag notch 17, a kind of energy-saving desulfurizing tower with multitube atomising device of the present utility model connects atomizer 7-2 and equal fluid layer 5 by mozzle 6, pending discarding directly upwards is flowed by mozzle 6, then atomising device 7 is passed by the sub-pipe 13 of water conservancy diversion, undertaken concentrating atomization by shower nozzle in mozzle 6 inside, effectively water resource waste can also be reduced while lifting nebulization efficiency, power wastage, reduce the sulfide of reaction to the corrosion of tower body inwall, and the flowing velocity of waste gas is reduced by the sub-pipe 13 of water conservancy diversion that bore is less, extend the time in mozzle 6, extend the reaction time, make atomization more abundant, and mozzle 6 adopts detachable installation, greatly reduce and produce and maintenance cost, liquid flow sensor 14 is set bottom mozzle 6 and is used for Monitoring of Fog gasifying device 7 blockage, promote the security of desulfurizing tower.
With above-mentioned according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, relevant staff in the scope not departing from this utility model technological thought, can carry out various change and amendment completely.The technical scope of this utility model is not limited to the content on description, must determine its technical scope according to right.
Claims (4)
1. one kind has the energy-saving desulfurizing tower of multitube atomising device, comprise tower body (1), it is characterized in that: described tower body (1) left side outer wall is fixedly connected with the flue (2) being used for external connection row smoke pipe with tower body (1) intracavity inter-connection, tower body (1) inside is positioned at flue (2) below and is fixedly connected with water conservancy diversion filter (3), the nearly lower end of inwall, tower body (1) right side is fixedly connected with agitating device (4), tower body (1) inside is positioned at flue (2) top and is fixedly connected with equal fluid layer (5), described equal fluid layer (5) is provided with some mozzles (6), described mozzle (6) lower end is fixedly connected with equal fluid layer (5) through equal fluid layer (5), described tower body (1) inside is positioned at mozzle (6) top and is fixedly connected with atomising device (7), described atomising device (7) comprises lateral wall and tower body (1) inside is fixedly connected with dividing plate (7-1) and is positioned at the atomizer (7-2) of dividing plate (7-1) lower surface, the described nearly lower end of tower body (1) left side wall is fixedly connected with electric water pump (8), the feed tube (9) of described electric water pump (8) penetrates tower body (1) outer wall and is connected with tower body (1) inside, described tower body (1) left side outer wall is fixedly connected with the external woven hose (10) that lower end is connected with electric water pump (8) liquid outlet, described external woven hose (10) upper end penetrates dividing plate (7-1) by feed tube (11) and is connected with the atomizer (7-2) of dividing plate (7-1) lower surface, described atomizer (7-2) lateral wall is fixedly connected with cover cap (12), described cover cap (12) lower end is fixedly connected with mozzle (6) upper end open, described atomizer (7-2) center is fixedly connected with water conservancy diversion pipe (13), described mozzle (6) is connected with atomising device (7) upper end with dividing plate (7-1) through atomizer (7-2) by water conservancy diversion pipe (13), described mozzle (6) lower ending opening position is fixedly connected with the liquid flow sensor (14) for monitoring atomizer (7-2) blockage.
2. a kind of energy-saving desulfurizing tower with multitube atomising device according to claim 1, is characterized in that: described tower body (1) inside is positioned at atomising device (7) top and is fixedly connected with demister (15).
3. a kind of energy-saving desulfurizing tower with multitube atomising device according to claim 1, is characterized in that: the described nearly upper end of tower body (1) outer right wall is fixedly connected with the gas outlet (16) with tower body (1) intracavity inter-connection.
4. a kind of energy-saving desulfurizing tower with multitube atomising device according to claim 1, is characterized in that: described tower body (1) bottom is positioned at water conservancy diversion filter (3) right side and is provided with slag notch (17).
Priority Applications (1)
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CN201520387859.2U CN204973519U (en) | 2015-06-09 | 2015-06-09 | Energy -conserving desulfurizing tower with multitube atomizing device |
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CN201520387859.2U CN204973519U (en) | 2015-06-09 | 2015-06-09 | Energy -conserving desulfurizing tower with multitube atomizing device |
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CN204973519U true CN204973519U (en) | 2016-01-20 |
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CN201520387859.2U Expired - Fee Related CN204973519U (en) | 2015-06-09 | 2015-06-09 | Energy -conserving desulfurizing tower with multitube atomizing device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109589781A (en) * | 2018-12-21 | 2019-04-09 | 大田县伊鑫新型材料有限公司 | A kind of cement kiln semi-dry desulphurization system |
CN110193273A (en) * | 2019-07-01 | 2019-09-03 | 巴斯夫新材料有限公司 | Chemical industry tail gas processing equipment |
-
2015
- 2015-06-09 CN CN201520387859.2U patent/CN204973519U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109589781A (en) * | 2018-12-21 | 2019-04-09 | 大田县伊鑫新型材料有限公司 | A kind of cement kiln semi-dry desulphurization system |
CN110193273A (en) * | 2019-07-01 | 2019-09-03 | 巴斯夫新材料有限公司 | Chemical industry tail gas processing equipment |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160120 Termination date: 20180609 |
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CF01 | Termination of patent right due to non-payment of annual fee |