CN216137351U - Wet limestone pulping system for distributing overflow of cyclone - Google Patents

Wet limestone pulping system for distributing overflow of cyclone Download PDF

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Publication number
CN216137351U
CN216137351U CN202122059774.XU CN202122059774U CN216137351U CN 216137351 U CN216137351 U CN 216137351U CN 202122059774 U CN202122059774 U CN 202122059774U CN 216137351 U CN216137351 U CN 216137351U
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limestone
slurry
cyclone
wet
overflow
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何海涛
沈平
陈彦秋
张泉水
浦佳栋
刘伟
王超
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Shanghai Shidongkou First Power Plant of Huaneng Power International Inc
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Shanghai Shidongkou First Power Plant of Huaneng Power International Inc
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Abstract

The utility model relates to a wet limestone pulping system for distributing overflow of a cyclone, which comprises a plurality of sets of limestone preparation subsystems and a plurality of limestone slurry tanks, wherein the limestone preparation subsystems comprise limestone silos, a belt feeder and a wet ball mill, the system comprises a recirculation box, a limestone cyclone and a slurry distribution device, wherein a discharge port of a limestone silo is arranged above the starting end of a belt feeder, a feed port of a wet ball mill is arranged below the tail end of the belt feeder, a liquid outlet of the wet ball mill is communicated with a liquid inlet of the recirculation box, a liquid outlet of the recirculation box is communicated with a liquid inlet of the limestone cyclone, an overflow port of the limestone cyclone is communicated with an inlet of the slurry distribution device, an outlet of the slurry distribution device is respectively communicated with inlets of the recirculation box and the limestone slurry box, and a bottom flow port of the limestone cyclone is communicated with the liquid inlet of the recirculation box through a pipeline. Compared with the prior art, the method has the advantages of high quality of limestone slurry production, high system reliability and the like.

Description

Wet limestone pulping system for distributing overflow of cyclone
Technical Field
The utility model relates to the field of wet limestone pulping, in particular to a wet limestone pulping system with a distribution cyclone overflow function.
Background
In coal-fired power plants, steel plants and other industries in China which use coal as fuel, sulfur dioxide SO2 is generated by combustion of coal in the production process, and the most mature technology for treating sulfur dioxide in flue gas in China is the wet flue gas desulfurization technology. Limestone-gypsum wet flue gas desulfurization is the most common flue gas treatment technology which is most widely applied at present. Limestone-gypsum wet desulphurization technology is that limestone slurry with a certain concentration is prepared and pumped into an absorption tower as an absorbent, the limestone slurry is fully contacted and mixed with flue gas through a slurry circulating pump, sulfur dioxide in the flue gas reacts with calcium carbonate in the slurry, forced oxidation reaction is carried out through air blown in from the lower part of the tower, calcium sulfate (CaSO4) is finally generated, and after the calcium sulfate reaches a certain saturation degree, the calcium sulfate is crystallized to form calcium sulfate dihydrate (CaSO 4.2H2O). The gypsum slurry discharged from the absorption tower is concentrated and dehydrated to make its water content less than 10%.
In the existing wet limestone pulping system, limestone is ground and then sent into a cyclone for sorting, and qualified limestone slurry after sorting is sent into a limestone slurry tank through an overflow port of the cyclone. However, when the limestone preparation system fails, the prepared limestone slurry is unqualified, the wet ball mill does not operate and other working conditions, the direct delivery of the overflow into the limestone slurry tank can cause the unqualified quality of the limestone slurry, and the desulfurization effect of wet flue gas desulfurization is affected.
SUMMERY OF THE UTILITY MODEL
The present invention is directed to overcoming the above-mentioned deficiencies of the prior art and providing a wet limestone pulping system with a dispensing cyclone overflow.
A wet limestone pulping system for distributing overflow of a cyclone comprises a plurality of sets of limestone preparation subsystems and a plurality of limestone slurry tanks,
the limestone preparation subsystem comprises a limestone silo, a belt feeder, a wet ball mill, a recirculation box, a limestone cyclone and a slurry distribution device,
the discharge gate of lime stone silo locate belt feeder's initiating terminal top, wet ball mill's feed inlet locate belt feeder's end below, wet ball mill's liquid outlet and recirculation case's inlet intercommunication, recirculation case's liquid outlet and lime stone swirler's inlet intercommunication, lime stone swirler's overflow mouth and slurry distribution device's import intercommunication, slurry distribution device's export communicate with recirculation case, lime stone slurry tank's import respectively, lime stone swirler's underflow mouth communicate through pipeline and recirculation case's inlet.
Preferably, the thick liquid distributor include densimeter, adjustable blanking pipe and blanking fill, the densimeter locate on the overflow mouth of limestone cyclone and the pipeline between thick liquid distributor, the blanking fill in be equipped with recirculation hopper and a plurality of thick liquid case hopper, the discharge gate of recirculation hopper pass through the pipeline and the import intercommunication of recirculation case, the discharge gate of thick liquid case hopper pass through pipeline and limestone slurry case intercommunication, the feed inlet of adjustable blanking pipe pass through the overflow mouth intercommunication of pipeline and limestone cyclone, adjustable blanking pipe discharge gate locate in the blanking fill.
Preferably, the adjustable blanking pipe comprises an electric push rod and a blanking pipe main body, the electric push rod is arranged on the side face of the blanking pipe main body, the tail end of the electric push rod is connected with an outlet of the blanking pipe main body, and the electric push rod operates to drive the outlet of the blanking pipe main body to respectively face the recycling hopper and the slurry tank hopper to discharge.
Preferably, the pulping system comprises two limestone slurry tanks, a recirculation hopper and two slurry tank hoppers are arranged in the blanking hopper, and discharge ports of the two slurry tank hoppers are respectively communicated with the two limestone slurry tanks through pipelines.
Preferably, the bottom of the limestone silo is provided with a motor vibrating feeder, and a discharge port of the motor vibrating feeder is positioned above the starting end of the belt feeder.
Preferably, an air cannon for preventing discharge blockage is arranged at the discharge outlet of the limestone silo.
Preferably, the pulping system further comprises a limestone slurry pump, and the limestone slurry pump is arranged on a liquid outlet pipeline of the recirculation tank.
Preferably, the belt feeder is a weighing belt feeder.
Preferably, the pulping system comprises three sets of limestone preparation subsystems.
Preferably, the pulping system comprises two limestone slurry tanks.
The purpose of the utility model can be realized by the following technical scheme:
compared with the prior art, the utility model has the following advantages:
(1) the slurry distribution device is arranged, so that the effective distribution of the overflow of the cyclone to the recirculation tank and the limestone slurry tank is realized, the distribution path is selected based on the overflow density, and when the limestone preparation system fails, the prepared limestone slurry is unqualified, the wet ball mill does not operate and other working conditions, the unqualified limestone slurry is prevented from entering the limestone slurry tank, and the quality of the limestone slurry is ensured;
(2) the bottom flow of the limestone cyclone can return to a limestone wet grinding machine for grinding again, the overflow is qualified limestone slurry, the slurry is selected to enter a recirculation box slurry pump through a limestone slurry distributor for pumping circulation or enter different limestone slurry storage systems, the production quality and the production stability of the limestone slurry are improved, the subsequent desulfurization effect of wet flue gas desulfurization is ensured, and the slurry deposition blockage in the systems and pipelines is avoided;
(3) according to the utility model, a plurality of sets of limestone preparation subsystems and a plurality of limestone slurry tanks are arranged, the yield and the slurry fineness can be flexibly adjusted, a plurality of sets of equipment are mutually standby, the reliability of the slurry preparation system is improved, and the difficulty and the cost of maintenance of the equipment are reduced.
Drawings
FIG. 1 is a schematic view of the main structure of the present invention;
FIG. 2 is a side view of the system of the present invention;
FIG. 3 is a cross-sectional view of the system of the present invention;
fig. 4 is a schematic structural view of the slurry distribution device of the present invention.
The system comprises a limestone silo 1, a limestone silo 2, a belt feeder 3, a wet ball mill 4, a recycling box 5, a limestone cyclone 6, a slurry distribution device 7, a limestone slurry box 8, a limestone slurry pump 9, an air cannon 10, a motor vibrating feeder 11, a densimeter 12, an electric push rod 13, a blanking pipe main body 14, a blanking hopper 15, a recycling hopper 16 and a slurry box hopper.
Detailed Description
The utility model is described in detail below with reference to the figures and specific embodiments. Note that the following description of the embodiments is merely a substantial example, and the present invention is not intended to be limited to the application or the use thereof, and is not limited to the following embodiments.
Examples
A wet limestone pulping system for distributing overflow of a cyclone, as shown in fig. 1 to 3, comprises a plurality of sets of limestone preparation subsystems and a plurality of limestone slurry tanks 7, wherein in the embodiment, three sets of limestone preparation subsystems and two limestone slurry tanks 7 are provided to meet the preparation requirements and the storage requirements of limestone slurry.
In this embodiment, the limestone preparation subsystem includes a limestone silo 1, a belt feeder 2, a wet ball mill 3, a recirculation tank 4, a limestone slurry pump 8, a limestone cyclone 5 and a slurry distribution device 6, and the connection arrangement relationship is as follows:
the discharge gate of lime stone silo 1 locates belt feeder 2's initiating terminal top, the feed inlet of wet ball mill 3 locates belt feeder 2's terminal below wet ball mill 3's liquid outlet and the inlet of recirculation case 4 intercommunication, the liquid outlet of recirculation case 4 and the inlet of lime stone swirler 5 intercommunication, lime stone thick liquid pump 8 locates on the liquid outlet pipeline of recirculation case 4, the overflow mouth and the import of thick liquid distributor 6 of lime stone swirler 5 communicate, the export of thick liquid distributor 6 respectively with recirculation case 4, the import of lime stone thick liquid case 7 communicates, the underflow mouth of lime stone swirler 5 communicates through the inlet of pipeline and recirculation case 4.
In addition, in order to improve the limestone conveying efficiency and ensure quantitative conveying of limestone, an air cannon 9 for preventing discharge blockage is arranged at the discharge outlet of the limestone silo 1, a motor vibrating feeder 10 is arranged at the bottom of the limestone silo 1, the discharge outlet of the motor vibrating feeder 10 is positioned above the starting end of the belt feeder 2, and the belt feeder 2 is a weighing belt feeder 2.
In the utility model, the discharge of the overflow port of the limestone cyclone 5 is sorted by the slurry distribution device 6, if the density meets the requirement of limestone slurry, the discharge is sent to the limestone slurry tank 7, otherwise, the discharge is sent to the recycle tank 4 for circulation, thereby avoiding the deposition of slurry in a system and a pipeline, ensuring that unqualified limestone slurry cannot enter the limestone slurry tank 7, specifically,
as shown in fig. 1 and 4, the slurry distributing device 6 includes a densimeter 11, an adjustable blanking pipe and a blanking hopper 14, the densimeter 11 is disposed on a pipeline between an overflow port of the limestone cyclone 5 and the slurry distributing device 6, a recirculation hopper 15 and two slurry tank hoppers 16 are disposed in the blanking hopper 14, a discharge port of the recirculation hopper 15 is communicated with an inlet of the recirculation tank 4 through a pipeline, discharge ports of the two slurry tank hoppers 16 are respectively communicated with the two limestone slurry tanks 7 through pipelines, a feed port of the adjustable blanking pipe is communicated with the overflow port of the limestone cyclone 5 through a pipeline, the adjustable blanking pipe includes an electric push rod 12 and a blanking pipe main body 13, the electric push rod 12 is disposed on a side surface of the blanking pipe main body 13, a tail end of the electric push rod 12 is connected with an outlet of the blanking pipe main body 13, a discharge port of the adjustable blanking pipe is disposed in the blanking hopper 14, the electric push rod 12 operates to drive an outlet of the blanking pipe main body 13 to respectively face the recirculation hopper 15, The slurry tank hopper 16 discharges.
When the utility model is used, a limestone raw material in a limestone silo 1 is sent into a wet ball mill 3 for grinding through a belt feeder 2, limestone slurry is sent into a recirculation box 4 through an overflow port of the wet ball mill 3, slurry in the recirculation box 4 is pumped into a limestone cyclone 5 for sorting through a limestone slurry pump 8, the overflow of the limestone cyclone 5 enters a slurry distribution device 6, a densimeter 11 detects the overflow density, if the overflow density is qualified, an electric push rod 12 operates to enable a discharge port of a blanking pipe main body 13 to face a slurry box hopper 16, and the slurry entering the blanking pipe main body 13 enters a limestone slurry box 7; when the limestone preparation system fails, limestone slurry is unqualified, the wet ball mill 3 does not operate and other working conditions, the densimeter 11 detects that the overflow density of the limestone cyclone 5 is unqualified, the electric push rod 12 operates to enable the discharge hole of the blanking pipe main body 13 to face the recirculation hopper 15, slurry returns to the recirculation tank 4, and circulation of slurry in the system and the pipeline is ensured, so that slurry deposition in the system and the pipeline is avoided, and unqualified limestone slurry cannot enter the limestone slurry tank 7.
In this embodiment, in order to ensure the separation effect of the limestone cyclone 5, the slurry fed into the limestone cyclone 5 should be kept in a predetermined density range, and the slurry pressure should be kept in a proper range, wherein the slurry pressure is provided by the limestone slurry pump 8, an inlet of the limestone cyclone 5 is provided with an adjusting valve, and the slurry pressure can be adjusted by the opening degree of the adjusting valve and the number of the cyclone in the limestone cyclone 5, so as to ensure that the pressure is maintained in a proper range. Slurry density is maintained in a constant density range by closed loop control of the flow of process water to the recirculation tank 4.
The above embodiments are merely examples and do not limit the scope of the present invention. These embodiments may be implemented in other various manners, and various omissions, substitutions, and changes may be made without departing from the technical spirit of the present invention.

Claims (9)

1. A wet limestone pulping system for distributing overflow of a cyclone is characterized by comprising a plurality of sets of limestone preparation subsystems and a plurality of limestone slurry tanks (7),
the limestone preparation subsystem comprises a limestone silo (1), a belt feeder (2), a wet ball mill (3), a recirculation box (4), a limestone cyclone (5), a limestone slurry pump (8) and a slurry distribution device (6),
the discharge port of the limestone silo (1) is arranged above the starting end of the belt feeder (2), the feed inlet of the wet ball mill (3) is arranged below the tail end of the belt feeder (2), the liquid outlet of the wet ball mill (3) is communicated with the liquid inlet of the recirculation box (4), the liquid outlet of the recirculation box (4) is communicated with the liquid inlet of the limestone cyclone (5), the limestone slurry pump (8) is arranged on a liquid outlet pipeline of the recirculation box (4), the overflow port of the limestone cyclone (5) is communicated with the inlet of the slurry distribution device (6), the outlet of the slurry distribution device (6) is respectively communicated with the inlet of the recirculation box (4) and the inlet of the limestone slurry box (7), the bottom flow port of the limestone cyclone (5) is communicated with the liquid inlet of the recirculation tank (4) through a pipeline.
2. A wet limestone pulping system with dispensing cyclone overflow as claimed in claim 1, characterized in that the slurry distribution device (6) comprises a densimeter (11), an adjustable blanking pipe and a blanking hopper (14), the densimeter (11) is arranged on a pipeline between an overflow port of the limestone cyclone (5) and the slurry distribution device (6), a recirculation hopper (15) and a plurality of slurry tank hoppers (16) are arranged in the blanking hopper (14), the discharge hole of the recycling hopper (15) is communicated with the inlet of the recycling box (4) through a pipeline, the discharge hole of the slurry tank hopper (16) is communicated with the limestone slurry tank (7) through a pipeline, the feeding hole of the adjustable blanking pipe is communicated with the overflow port of the limestone cyclone (5) through a pipeline, and the discharging hole of the adjustable blanking pipe is arranged in the blanking hopper (14).
3. The wet limestone pulping system with the overflow of the distribution cyclone as recited in claim 2, wherein the adjustable blanking pipe comprises an electric push rod (12) and a blanking pipe main body (13), the electric push rod (12) is arranged on a side surface of the blanking pipe main body (13), a tail end of the electric push rod (12) is connected with an outlet of the blanking pipe main body (13), and the electric push rod (12) operates to drive the outlet of the blanking pipe main body (13) to respectively face the recirculation hopper (15) and the slurry tank hopper (16) for discharging.
4. A wet limestone pulping system with distributed cyclone overflow according to claim 2, characterized in that the system comprises two limestone slurry tanks (7), the blanking hopper (14) is provided with a recirculation hopper (15) and two slurry tank hoppers (16), and the discharge ports of the two slurry tank hoppers (16) are respectively communicated with the two limestone slurry tanks (7) through pipelines.
5. The wet limestone pulping system with distributed cyclone overflow as claimed in claim 1, wherein a motor vibrating feeder (10) is arranged at the bottom of the limestone silo (1), and a discharge port of the motor vibrating feeder (10) is positioned above the starting end of the belt feeder (2).
6. The wet limestone pulping system with overflow of a distribution cyclone according to claim 1, characterized in that the discharge opening of the limestone silo (1) is provided with an air cannon (9) for preventing discharge blockage.
7. A wet limestone pulping system with distributed cyclone overflow according to claim 1 characterized in that the belt feeder (2) is a weighing belt feeder (2).
8. The wet limestone pulping system of claim 1, wherein the system includes three limestone preparation subsystems.
9. A wet limestone pulping system with distribution cyclone overflow according to claim 1 characterized in that the pulping system comprises two limestone slurry tanks (7).
CN202122059774.XU 2021-08-30 2021-08-30 Wet limestone pulping system for distributing overflow of cyclone Active CN216137351U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113713914A (en) * 2021-08-30 2021-11-30 华能国际电力股份有限公司上海石洞口第一电厂 Wet limestone pulping system based on density distribution

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113713914A (en) * 2021-08-30 2021-11-30 华能国际电力股份有限公司上海石洞口第一电厂 Wet limestone pulping system based on density distribution

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