CN207918584U - A kind of energy-storage battery production wastewater treatment pond - Google Patents

A kind of energy-storage battery production wastewater treatment pond Download PDF

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Publication number
CN207918584U
CN207918584U CN201820148731.4U CN201820148731U CN207918584U CN 207918584 U CN207918584 U CN 207918584U CN 201820148731 U CN201820148731 U CN 201820148731U CN 207918584 U CN207918584 U CN 207918584U
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China
Prior art keywords
filtering ponds
sedimentation basin
acid
valve
shut
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Expired - Fee Related
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CN201820148731.4U
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Chinese (zh)
Inventor
陈海军
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Jiangxi Huineng Electrical Technology Co Ltd
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Jiangxi Huineng Electrical Technology Co Ltd
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Priority to CN201820148731.4U priority Critical patent/CN207918584U/en
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Abstract

The utility model discloses a kind of energy-storage battery production wastewater treatment ponds, including filtering ponds, sedimentation basin, acid-base neutralization pond and sludge-tank, filtering ponds are equipped with oral siphon, the outlet pipe of filtering ponds connects sedimentation basin, first shut-off valve is housed on the outlet pipe of filtering ponds, sedimentation basin connects acid-base neutralization pond by drinking-water pipe, drinking-water pipe is equipped with suction pump, acid-base neutralization pond is equipped with drainpipe, the bottom of filtering ponds and sedimentation basin is equipped with blow-off line, blow-off line connects sludge-tank, second shut-off valve is housed on the blow-off line of filtering ponds and sludge-tank, third shut-off valve is housed on the blow-off line of sedimentation basin and sludge-tank, equipped at least with one piece of activated carbon filter plate for the large particle in filtered wastewater in filtering ponds, activated carbon filter plate and filtering ponds are detachably installed.The utility model realizes the filtering of wastewater from battery production, precipitates the continuous processing process of heavy-metal ion removal and acid-base neutralization, and treated, and wastewater from battery production disclosure satisfy that emissions requirements substantially, easy to use.

Description

A kind of energy-storage battery production wastewater treatment pond
Technical field
At battery production technical field of processing equipment more particularly to a kind of energy-storage battery production waste water Manage pond.
Background technology
Currently, battery will produce a large amount of lead waste water in process of production, lead content exceeds national standard number.Due to lead Serious harm and environmental pollution and shortage of resources problem are on the rise, processing pay attention to day by day of the people to battery waste water.Cause This, by lead-acid accumulator wastewater treatment it is up to standard after discharge again, there is the problem of for being further reduced river pollution reality meaning, because This designs a kind of equipment that can administer battery plumbic acid waste water and is particularly important.
Now widely used wastewater from battery production processing pool structure is too simple, and wastewater treatment is incomplete, heavy metal from Son precipitation is insufficient, or needs the processing time grown very much, and inefficiency, processing cost is also higher, it is difficult to meet battery production The demand of enterprise.
Utility model content
Based on above-mentioned technical problem, the utility model provides a kind of energy-storage battery production wastewater treatment pond, including filtering Pond, sedimentation basin, acid-base neutralization pond and sludge-tank, the filtering ponds are equipped with oral siphon, and the outlet pipe of filtering ponds connects the precipitation Pond, the first shut-off valve is equipped on the outlet pipe of the filtering ponds, and sedimentation basin connects the acid-base neutralization pond, the pumping by drinking-water pipe Water pipe is equipped with suction pump, and the acid-base neutralization pond is equipped with drainpipe, and the bottom of the filtering ponds and sedimentation basin is equipped with row The second shut-off valve is housed on the blow-off line of dirty pipeline, the blow-off line connection sludge-tank, filtering ponds and sludge-tank, is sunk Third shut-off valve is housed on the blow-off line of shallow lake pond and sludge-tank, was used for equipped at least with one piece of activated carbon filter plate in filtering ponds The large particle in waste water is filtered, the activated carbon filter plate and the filtering ponds are detachably installed.
Further, U-shaped card slot is correspondingly provided in the opposite two side walls of the filtering ponds, the U-shaped card slot is in vertical Direction extends, the upper end opening of U-shaped card slot, the bottom surface in lower end contact filtration pond, the two opposite side difference of the activated carbon filter plate Slide-in is connected in the corresponding U-shaped card slot in both sides.
Further, flush pipe is installed, described flush pipe one end is set to outside filtering ponds, the other end above the filtering ponds It stretches into filtering ponds.
Further, the blow-off line between the filtering ponds and second shut-off valve is equipped with cleaning and manages, described clear Reason pipe is connected with the blow-off line between filtering ponds and the second shut-off valve, and the end for clearing up pipe is equipped with flange-interface, the method Blind flange is bolted on blue interface.
Further, chemical feed pipe and the first mixing component are housed, the chemical feed pipe is mounted on sedimentation basin on the sedimentation basin Top and stretch into sedimentation basin, for adding chemical agent into sedimentation basin;First mixing component includes the first stirring Motor, the first motor frame, the first retarder, main agitating shaft and driven agitating shaft, first motor frame are mounted on heavy The top in shallow lake pond, the first motor frame are equipped with three layers interconnected, and motor, middle level dress stir equipped with described first in top layer There are first retarder, lowest level that driving wheel is housed, the shaft of the first stirring motor connects the power of the first retarder The torque output end of square input terminal, the first retarder passes through driving wheel, the lower end of main agitating shaft described in the main stirring axis connection It stretches into the sedimentation basin, part of the main agitating shaft in sedimentation basin is equipped with the first agitating paddle, and the driven agitating shaft passes through axis Bearing is mounted on sedimentation basin, and the upper end of driven agitating shaft is equipped with driven wheel, and lower end is stretched into sedimentation basin, and driven agitating shaft is heavy Part in the pond of shallow lake is equipped with the second agitating paddle, and the lowest level of first motor frame is equipped with notch, the driving wheel and driven Wheel is connected by belt transmission, and the belt passes through the undermost notch of the first motor frame.
Further, filter screen is equipped in the drinking-water pipe.
Further, in the acid-base neutralization pond include reaction tank and cooling bay, the top in acid-base neutralization pond is equipped with soda acid Liquid batcher and the second mixing component, are equipped with second mixing component on the reaction tank, and the second mixing component includes the Two motor frames, the second stirring motor and the second retarder, second motor frame are mounted on the top of reaction tank, and second Motor frame includes two layers interconnected, and described second is equipped in upper layer and stirs motor, lower layer is equipped with described second and slows down The shaft of device, the second stirring motor connects the moment input end of the second retarder, the torque output end installation of the second retarder There are the second agitating shaft, the lower end of second agitating shaft to stretch into reaction tank, part of second agitating shaft in reaction tank is equipped with Third agitating paddle, the acid & alkali liquid batcher are connected to the reaction tank by soda acid liquid pipe, and the soda acid liquid pipe is equipped with valve, The bottom of reaction tank is equipped with outlet tube and is connected to the cooling bay, and the outlet tube is equipped with PH measuring instrumentss and the 4th shut-off valve, PH measuring instrumentss are mounted on the inside of the 4th shut-off valve, and the upper end opening of the cooling bay, cooling bay is interior to be equipped with cooling inclined-plane, institute The upper end for stating cooling inclined-plane is located at the underface of the outlet tube, and the lower end on cooling inclined-plane is equipped with the drainpipe.
Further, the side wall of the cooling bay is equipped with exhaust fan.
As can be seen from the above technical solutions, the utility model has the advantages that:
1, the utility model realizes the filtering of wastewater from battery production, precipitation heavy-metal ion removal (such as Pb2+) and acid The continuous processing process of alkali neutralization, treated, and wastewater from battery production disclosure satisfy that emissions requirements substantially, easy to use;
2, the utility model improves sedimentation basin, introduces first mixing component, using Double shaft stirring, So that precipitation reaction is more abundant, the reaction time is shorter, improves production efficiency;
3, the utility model improves the construction in acid-base neutralization pond, acid-base neutralization reaction and cooling separately progress, So that waste water cooling is more abundant after reaction, the amount of Continuous Wastewater Treatment is significantly greatly increased, and using effect is notable.
Description of the drawings
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is the structural schematic diagram of the sedimentation basin;
Fig. 3 is the structural schematic diagram in the acid-base neutralization pond;
Fig. 4 is the three-dimensional structure diagram of the filtering ponds pond body (not including upper cover).
Specific implementation mode
It elaborates below in conjunction with the accompanying drawings to specific embodiment of the utility model.
As shown in figures 1-4, a kind of energy-storage battery production wastewater treatment pond, including filtering ponds 1, sedimentation basin 2, acid-base neutralization Pond 3 and sludge-tank 4.Filtering ponds 1 are equipped with oral siphon 5, and the outlet pipe 6 of filtering ponds 1 connects sedimentation basin 2, and the position of filtering ponds is than heavy Shallow lake pond is high, and waste water is flowed into from filtering ponds in sedimentation basin by gravity.First shut-off valve 7, control are housed on the outlet pipe 6 of filtering ponds 1 Make the opening and closing of water pipe 6.Sedimentation basin 2 connects acid-base neutralization pond 3 by drinking-water pipe 8, and drinking-water pipe 8 is equipped with suction pump 9 and filter screen 32, filter screen 32 be suction pump draft in order to prevent it is excessive or precipitation the insufficient sediment caused in sedimentation basin of time of repose Into in acid-base neutralization pond 3.Acid-base neutralization pond 3 is equipped with drainpipe 10, and the waste water that last processing is completed is discharged.Filtering ponds 1 It is equipped with blow-off line 11 with the bottom of sedimentation basin 2, blow-off line 11 connects sludge-tank 4 so that filtered big of filtering ponds 1 The sediment of reaction gained can be discharged into centralized processing in sludge-tank 4 by blow-off line 11 in grain impurity and sedimentation basin 2.Filtering ponds 1 and sludge-tank 4 blow-off line on the second shut-off valve 12 is housed, cut equipped with third on the blow-off line of sedimentation basin 2 and sludge-tank 4 Only valve 13.Equipped with three pieces of activated carbon filter plates 14 parallel to each other for the large particle in filtered wastewater in filtering ponds 1.Such as figure Shown in 4, U-shaped card slot 15 is correspondingly provided in the opposite two side walls of filtering ponds 1, the U-shaped card slot 15 extends in vertical direction, U The upper end opening of shape card slot 15, the bottom surface in lower end contact filtration pond 1, two opposite side of activated carbon filter plate 14 slide into respectively to be connected to In the corresponding U-shaped card slot in both sides, the detachable installation of activated carbon filter plate 14 and filtering ponds 1 is realized.1 top of filtering ponds is equipped with Flush pipe 16,16 one end of flush pipe are set to outside filtering ponds 1, and the other end stretches into filtering ponds 1.When needing to be rinsed to filtering ponds When (such as large inclusions block blow-off line, or filtering pool wall need cleaning when), the second shut-off valve 12 can be opened, Injection is sprayed water with high pressure in flush pipe 16, is rinsed to filtering ponds.Blow-off line between filtering ponds 1 and the second shut-off valve 12 It is equipped with cleaning pipe 17, cleaning pipe 17 is connected with the blow-off line between filtering ponds 1 and the second shut-off valve 12, cleaning pipe 17 End is equipped with flange-interface 18, and blind flange 19 is bolted on flange-interface 18.With the extension of usage time, bulky grain Field trash is easy to be deposited at the second shut-off valve 12, causes the second shut-off valve to block, it is therefore desirable to the entrance of the second shut-off valve Place is timed cleaning.When cleaning, blind flange 19 is first opened, cleaning tool is stretched into blow-off line from cleaning pipe 17 to second Shut-off valve is cleared up, and object flushing place will be cleared up from 16 injected clear water of flush pipe after the completion of cleaning.
As shown in Fig. 2, being equipped with chemical feed pipe 20 and the first mixing component on sedimentation basin 2, chemical feed pipe 20 is mounted on sedimentation basin 2 Top is simultaneously stretched into sedimentation basin 2, for adding chemical agent into sedimentation basin.First mixing component includes the first stirring electricity Motivation 21, the first motor frame 22, the first retarder 23, main agitating shaft 24 and driven agitating shaft 25.First motor frame 22 is logical The top that bolt is mounted on sedimentation basin 2 is crossed, the first motor frame 22 is equipped with three layers interconnected, and top layer is equipped with the first stirring Motor 21, middle level are equipped with the first retarder 23, and lowest level is equipped with driving wheel 26.The shaft connection the of first stirring motor 21 The torque output end of the moment input end of one speed reducer 23, the first retarder 23 connects driving wheel 26 by main agitating shaft 24, main The lower end of agitating shaft 24 is stretched into sedimentation basin 2, and part of the main agitating shaft 24 in sedimentation basin is equipped with the first agitating paddle 27, driven to stir It mixes axis 25 to be mounted on sedimentation basin 2 by bearing block 28, the upper end of driven agitating shaft 25 is equipped with driven wheel 29, and precipitation is stretched into lower end In pond 2, part of the driven agitating shaft 25 in sedimentation basin 2 is equipped with the second agitating paddle 30, and the lowest level of the first motor frame 22 is set Jagged, driving wheel 26 and driven wheel 29 are sequentially connected by belt 31, and belt 31 passes through the first motor frame is undermost to lack Mouthful.Using Double shaft stirring so that precipitation reaction is more abundant, and the reaction time is shorter.
Include reaction tank 33 and cooling bay 34 in acid-base neutralization pond 3, the top in acid-base neutralization pond 3 is equipped with acid & alkali liquid batcher 35 and second mixing component, acid & alkali liquid batcher 35 is for configuring neutralizing acid or neutralizing aqueous slkali.8 connected reaction pond of drinking-water pipe 33, second mixing component is installed, the second mixing component includes the second motor frame 36, second stirring electricity on reaction tank 33 Motivation 37 and the second retarder 38, the second motor frame 36 are mounted on the top of reaction tank 33, the second motor frame by bolt 36 include two layers interconnected, and the second stirring motor 37 is equipped in upper layer, and lower layer is equipped with the second retarder 38, the second stirring The shaft of motor 37 connects the moment input end of the second retarder 38, and the torque output end of the second retarder 38 is equipped with second The lower end of agitating shaft 39, the second agitating shaft 39 is stretched into reaction tank 33, and part of second agitating shaft 39 in reaction tank 33 is equipped with Third agitating paddle 40.Acid & alkali liquid batcher 35 is equipped with valve 42 by 41 connected reaction pond 33 of soda acid liquid pipe, soda acid liquid pipe 41. The bottom of reaction tank 33 is equipped with outlet tube 43 and is connected to cooling bay 34, and outlet tube 43 is equipped with PH measuring instrumentss 44 and the 4th shut-off valve 45, PH measuring instrumentss 44 are mounted on the inside of the 4th shut-off valve 45.The upper end opening of cooling bay 34, cooling bay is interior to be equipped with cooling tiltedly The upper end in face 46, cooling inclined-plane 46 is located at the underface of outlet tube 43, and the lower end on cooling inclined-plane 46 is equipped with drainpipe 10.Cooling bay 34 side wall is equipped with exhaust fan 47.First stirring motor and the second stirring motor connect external power supply by conducting wire and are Motor (is not drawn into) in figure.
In use, wastewater from battery production enters in filtering ponds 1, liquid phase enters precipitation after the filtering of activated carbon filter plate 14 In pond 2;Solid phase is blocked since gravity enters deposition in the blow-off line 11 of filtering ponds bottom, is beaten after being disposed It opens the second shut-off valve 12 deposit is discharged into sludge-tank 4.After waste water enters sedimentation basin 2, the first stirring motor 21 is opened, it is main Agitating shaft 24 and driven agitating shaft 25 rotate simultaneously is stirred waste water, and suitable chemical reagent and waste water are added into waste water It is reacted, by the heavy metal ion reaction precipitation or flocculation sediment in waste water.The first stirring motor is closed after the completion of reaction 21 so that the waste water after reaction stands 2h or more, and sediment is entered due to gravity in the blow-off line 11 of 2 bottom of sedimentation basin Then deposition opens suction pump 9, waste water in sedimentation basin is pumped by drinking-water pipe 8 in reaction tank 33, the is opened after drawing water Reaction precipitation or flocculate precipitate are discharged into sludge-tank 4 by three shut-off valves 13.After waste water enters reaction tank 33, PH measuring instruments are opened Table 44 measures the pH value of waste water, and the amount of required acid or lye is then calculated according to measured value, and matches in acid & alkali liquid batcher 35 Set acid solution or lye.Configuration after the completion of open second stirring motor 37 so that third agitating paddle 40 slowly rotation to waste water into Row stirring opens simultaneously valve 42 so that acid solution or lye in acid & alkali liquid batcher 35 flow into reaction tank in being reacted With, the reading of PH measuring instrumentss 44 is observed in reaction process at any time, after waste water pH value meets emission request, the second stirring of closing Motor 37 opens the 4th shut-off valve 45 and exhaust fan 47 so that waste water flows on cooling inclined-plane 46, and along cooling inclined-plane 46 Flow into discharge in drainpipe 10.It is quickly cooled down when waste water is in cooling 46 surface flow of inclined-plane, smaller, profit is damaged to downstream line In discharge.
Technical solution provided by the utility model is described in detail above, for the general technology people of this field Member, based on the idea of the embodiment of the present invention, there will be changes in the specific implementation manner and application range, to sum up institute It states, the content of the present specification should not be construed as a limitation of the present invention.

Claims (8)

1. a kind of energy-storage battery production wastewater treatment pond, which is characterized in that including filtering ponds, sedimentation basin, acid-base neutralization pond and dirt Mud sump, the filtering ponds are equipped with oral siphon, and the outlet pipe of filtering ponds connects the sedimentation basin, filled on the outlet pipe of the filtering ponds There are the first shut-off valve, sedimentation basin to connect the acid-base neutralization pond by drinking-water pipe, the drinking-water pipe is equipped with suction pump, the soda acid Neutralization pond is equipped with drainpipe, and the bottom of the filtering ponds and sedimentation basin is equipped with blow-off line, and the blow-off line connects institute It states sludge-tank, the second shut-off valve is housed on the blow-off line of filtering ponds and sludge-tank, on the blow-off line of sedimentation basin and sludge-tank Equipped with third shut-off valve, it is used for the large particle in filtered wastewater equipped at least with one piece of activated carbon filter plate in filtering ponds, it is described Activated carbon filter plate and the filtering ponds are detachably installed.
2. a kind of energy-storage battery production wastewater treatment pond according to claim 1, which is characterized in that the filtering ponds are opposite Two side walls on be correspondingly provided with U-shaped card slot, the U-shaped card slot extends in vertical direction, the upper end opening of U-shaped card slot, lower end The bottom surface in contact filtration pond, two opposite side of the activated carbon filter plate slide into respectively to be connected in the corresponding U-shaped card slot in both sides.
3. a kind of energy-storage battery production wastewater treatment pond according to claim 1, which is characterized in that above the filtering ponds Flush pipe is installed, described flush pipe one end is set to outside filtering ponds, and the other end stretches into filtering ponds.
4. a kind of energy-storage battery production wastewater treatment pond according to claim 1, which is characterized in that the filtering ponds and institute It states the blow-off line between the second shut-off valve and is equipped with cleaning pipe, the cleaning pipe and the row between filtering ponds and the second shut-off valve Dirty pipeline is connected, and the end for clearing up pipe is equipped with flange-interface, and blind flange is bolted on the flange-interface.
5. according to a kind of energy-storage battery production wastewater treatment of Claims 1 to 4 any one of them pond, which is characterized in that described Chemical feed pipe and the first mixing component are housed on sedimentation basin, the chemical feed pipe is mounted on the top of sedimentation basin and stretches into sedimentation basin, For adding chemical agent into sedimentation basin;First mixing component includes the first stirring motor, the first motor frame, the One speed reducer, main agitating shaft and driven agitating shaft, first motor frame are mounted on the top of sedimentation basin, the first motor frame Equipped with three layers interconnected, motor stirs equipped with described first in top layer, and middle level is equipped with first retarder, lowest level Equipped with driving wheel, the shaft of the first stirring motor connects the moment input end of the first retarder, the power of the first retarder Square output end is stretched by driving wheel, the lower end of main agitating shaft described in the main stirring axis connection in the sedimentation basin, main stirring Part of the axis in sedimentation basin is equipped with the first agitating paddle, and the driven agitating shaft is mounted on by bearing block on sedimentation basin, driven The upper end of agitating shaft is equipped with driven wheel, and lower end is stretched into sedimentation basin, and part of the driven agitating shaft in sedimentation basin is stirred equipped with second Paddle is mixed, the lowest level of first motor frame is equipped with notch, and the driving wheel is connected with driven wheel by belt transmission, described Belt passes through the undermost notch of the first motor frame.
6. a kind of energy-storage battery production wastewater treatment pond according to claim 5, which is characterized in that set in the drinking-water pipe There is filter screen.
7. a kind of energy-storage battery production wastewater treatment pond according to claim 6, which is characterized in that the acid-base neutralization pond Interior includes reaction tank and cooling bay, and the top in acid-base neutralization pond is equipped with acid & alkali liquid batcher and the second mixing component, the reaction Second mixing component is installed, the second mixing component includes the second motor frame, the second stirring motor and second on pond Retarder, second motor frame are mounted on the top of reaction tank, and the second motor frame includes two layers interconnected, upper layer Interior to be equipped with the second stirring motor, lower layer is equipped with second retarder, the shaft connection second of the second stirring motor The moment input end of retarder, the torque output end of the second retarder are equipped with the second agitating shaft, under second agitating shaft End is stretched into reaction tank, and part of second agitating shaft in reaction tank is equipped with third agitating paddle, and the acid & alkali liquid batcher passes through Soda acid liquid pipe is connected to the reaction tank, and the soda acid liquid pipe is equipped with valve, and the bottom of reaction tank is equipped with described in outlet tube connection Cooling bay, the outlet tube are equipped with PH measuring instrumentss and the 4th shut-off valve, and PH measuring instrumentss are mounted on the interior of the 4th shut-off valve Side, the upper end opening of the cooling bay, cooling bay is interior to be equipped with cooling inclined-plane, and the upper end on the cooling inclined-plane is located at the outlet tube Underface, the lower end on cooling inclined-plane is equipped with the drainpipe.
8. a kind of energy-storage battery production wastewater treatment pond according to claim 7, which is characterized in that the side of the cooling bay Wall is equipped with exhaust fan.
CN201820148731.4U 2018-01-29 2018-01-29 A kind of energy-storage battery production wastewater treatment pond Expired - Fee Related CN207918584U (en)

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CN201820148731.4U CN207918584U (en) 2018-01-29 2018-01-29 A kind of energy-storage battery production wastewater treatment pond

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Application Number Priority Date Filing Date Title
CN201820148731.4U CN207918584U (en) 2018-01-29 2018-01-29 A kind of energy-storage battery production wastewater treatment pond

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110144234A (en) * 2019-05-05 2019-08-20 内蒙古万众炜业科技环保股份公司 A kind of big partial size coal cracking sub-prime utilizes production system
CN114349208A (en) * 2021-12-27 2022-04-15 江苏陆氏金刚石工具有限公司 Diamond cutting piece surface finish is with zero pollution discharge's sewage treatment plant

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110144234A (en) * 2019-05-05 2019-08-20 内蒙古万众炜业科技环保股份公司 A kind of big partial size coal cracking sub-prime utilizes production system
CN114349208A (en) * 2021-12-27 2022-04-15 江苏陆氏金刚石工具有限公司 Diamond cutting piece surface finish is with zero pollution discharge's sewage treatment plant

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Granted publication date: 20180928

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