CN107916439A - One kind automation electrolytic cell - Google Patents
One kind automation electrolytic cell Download PDFInfo
- Publication number
- CN107916439A CN107916439A CN201810005333.1A CN201810005333A CN107916439A CN 107916439 A CN107916439 A CN 107916439A CN 201810005333 A CN201810005333 A CN 201810005333A CN 107916439 A CN107916439 A CN 107916439A
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- Prior art keywords
- electrolytic cell
- fixedly connected
- gear
- cell body
- shaft
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- C—CHEMISTRY; METALLURGY
- C25—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
- C25C—PROCESSES FOR THE ELECTROLYTIC PRODUCTION, RECOVERY OR REFINING OF METALS; APPARATUS THEREFOR
- C25C7/00—Constructional parts, or assemblies thereof, of cells; Servicing or operating of cells
-
- C—CHEMISTRY; METALLURGY
- C25—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
- C25C—PROCESSES FOR THE ELECTROLYTIC PRODUCTION, RECOVERY OR REFINING OF METALS; APPARATUS THEREFOR
- C25C7/00—Constructional parts, or assemblies thereof, of cells; Servicing or operating of cells
- C25C7/005—Constructional parts, or assemblies thereof, of cells; Servicing or operating of cells of cells for the electrolysis of melts
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- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Electrochemistry (AREA)
- Materials Engineering (AREA)
- Metallurgy (AREA)
- Organic Chemistry (AREA)
- Electrolytic Production Of Metals (AREA)
Abstract
The invention discloses one kind to automate electrolytic cell, including bottom plate, the upper surface of the bottom plate is fixedly connected with electric pushrod, the top of the electric pushrod is fixedly connected with the first stripper plate, the upper surface of first stripper plate is overlapped with the lower surface of electrolytic cell body outer wall, and the left surface of the electrolytic cell body outer wall is overlapped with the second stripper plate.The automation electrolytic cell, by setting motor, the output shaft rotation of motor drives second gear rotation, on first gear surface, rotation can drive movable plate to be rotated around first rotating shaft to second gear, the rotation of 3rd gear drives the rotation of the second shaft, second shaft drives anode stub to be rotated by contiguous block, and anode stub itself can be also rotated in electrolytic cell body interior when rotating, so as to which directly the distance between anode stub and cathode bar are adjusted, it is improved the efficiency of electrolytic cell body interior cell reaction, brought convenience to people when carrying out cell reaction using electrolytic cell.
Description
Technical field
The present invention relates to electrolysis installation technical field, is specially a kind of automation electrolytic cell.
Background technology
Electrolysis is to cause redox anti-on cathode and anode by electrolyte solution or molten state electrolyte in electric current
Electrolytic process can occur in impressed DC voltage for the process answered, electrochemical cell.By the use of the electrode as electronic conductor with
The electrochemical reaction that occurs on interface as the electrolyte of ion conductor carry out the manufacture of the synthesis high purity material of chemicals with
And the process of the processing of material surface.During energization, the cation in electrolyte shifts to cathode, absorbs electronics, and reduction occurs,
Generate novel substance;Anion in electrolyte shifts to anode, and ejected electron, occurs oxidation, also generate novel substance.
Pole span is both the source center in the electrochemical reaction region and maintenance electrolysis temperature in electrolytic process, to electric current
Efficiency and electrolysis temperature directly affect, and the cathode bar and anode stub inside traditional electrolyte groove are typically all direct when in use
The inside of electrolytic cell is fixed on, pole span that can not directly in regulating electrolytic tank, so as to make electrolyte bath cell reaction
Efficiency is not ideal enough, makes troubles to people when carrying out cell reaction using electrolytic cell.
The content of the invention
(1) technical problem solved
In view of the deficiencies of the prior art, the present invention provides one kind to automate electrolytic cell, solves inside traditional electrolyte groove
Cathode bar and anode stub be typically all to be directly anchored to the inside of electrolytic cell when in use, can not be directly in regulating electrolytic tank
Pole span, so as to make the efficiency of electrolyte bath cell reaction not ideal enough, using electrolytic cell be electrolysed instead to people
Seasonable the problem of making troubles.
(2) technical solution
To achieve the above object, the present invention provides following technical solution:One kind automation electrolytic cell, including bottom plate, it is described
The upper surface of bottom plate is fixedly connected with electric pushrod, and the top of the electric pushrod is fixedly connected with the first stripper plate, and described
The upper surface of one stripper plate is overlapped with the lower surface of electrolytic cell body outer wall, and the left surface of the electrolytic cell body outer wall is overlapped with
Second stripper plate, the left surface of second stripper plate are fixedly connected with elastic device, and the left end of the elastic device, which is fixed, to be connected
The right flank of the first fixed link is connected on, the bottom of first fixed link is fixedly connected with the upper surface of bottom plate, and electrolytic cell sheet
The right flank of external wall is overlapped with the 3rd stripper plate, and the right flank of the 3rd stripper plate is fixedly connected with fixed block, described solid
The right flank for determining block is fixedly connected on the left surface of the second fixed link, and the bottom of second fixed link and the upper surface of bottom plate are consolidated
Fixed connection, and the left surface of the second fixed link is fixedly connected with cross bar, the cross bar is located at the top of the second fixed link left surface,
And the lower surface of cross bar is fixedly connected with first rotating shaft, the surface of the first rotating shaft is socketed with clutch shaft bearing, the first axle
The upper surface for being connected to movable plate is held, and the surface of first rotating shaft is socketed with first gear, the first gear is located at first axle
The top held, and first gear is engaged with second gear, the lower surface of the second gear is fixedly connected with the output shaft of motor,
The lower surface of the motor body is fixedly connected with the upper surface of movable plate, and motor is located at the left side of first rotating shaft, and first
Gear is engaged with the 3rd gear, and the lower surface of the 3rd gear is fixedly connected with the top of the second shaft, second shaft
Second bearing is socketed with positioned at the surface on the right side of first rotating shaft, and the second shaft, the second bearing is connected to movable plate
Lower surface, and second bearing is located at the right side of movable plate lower surface, and the bottom of the second shaft is fixedly connected with contiguous block, it is described
The lower surface of contiguous block is fixedly connected with anode stub, and the bottom of the anode stub is located at the right side of electrolytic cell body interior, and electricity
Solution groove inner body wall is fixedly connected with cathode bar on the left of lower surface, and the front of electrolytic cell body is provided with circulating pump, described
Circulating pump is connected with the left end of the first pipeline, the right end of first pipeline through the positive right side of electrolytic cell body and with electricity
The inside of solution groove body is connected, and circulating pump is connected with the right end of second pipe, and the left end of the second pipe passes through electricity
The positive left side of solution groove body is simultaneously connected with the inside of electrolytic cell body.
Preferably, the elastic device includes telescopic rod, and the surface of the telescopic rod is socketed with spring, and telescopic rod and bullet
The both ends of spring are respectively fixedly connected with the left surface of the right flank and the second stripper plate in the first fixed link.
Preferably, the lower surface of the bottom plate is fixedly connected with four support legs, and four support legs are located at bottom plate respectively
The four corners of lower surface.
Preferably, the shape of the bottom plate is rectangle, and the thickness of bottom plate is five centimetres.
Preferably, the left surface of first fixed link is provided with storage battery and switch, and the switch is positioned at storage battery
Top.
Preferably, the output terminal of the storage battery with switch input terminal is electrically connected, and switch output terminal respectively with electricity
The input terminal of dynamic push rod, motor and circulating pump is electrically connected.
(3) beneficial effect
The present invention provides one kind to automate electrolytic cell, possesses following beneficial effect:
(1), the automation electrolytic cell, by setting motor, the output shaft rotation of motor drives second gear to rotate, and second
On first gear surface, rotation can drive movable plate to be rotated around first rotating shaft to gear, and movable plate rotation drives the 3rd gear to surround
First gear rotates, and the rotation of the 3rd gear drives the rotation of the second shaft, and the second shaft drives anode stub to be revolved by contiguous block
Turn, and when anode stub itself rotates, can also be rotated in electrolytic cell body interior, so as to directly by anode stub
The distance between cathode bar is adjusted, and is improved the efficiency of electrolytic cell body interior cell reaction, makes to people
Brought convenience when carrying out cell reaction with electrolytic cell.
(2), the automation electrolytic cell, by setting elastic device, the spring in elastic device can utilize its own resilient to
The second stripper plate of right promotion, the second stripper plate move right electrolytic cell body can be fixed it is more firm so that electrolysis
Groove body when in use will not run-off the straight, by setting electric pushrod, electric pushrod, which elongates or shortens, can drive electrolytic cell
Body rises or falls, and electrolytic cell body, which rises or falls, can be convenient for people to adjust anode stub and the electrolysis of electrolytic cell body interior
The contact area of liquid, so as to be brought convenience to people when carrying out cell reaction using electrolytic cell.
(3), the automation electrolytic cell, by setting four support legs, can make the support of bottom plate more firm, by setting
Second bearing is put, the second shaft can be made rotating more steady, so that anode stub is rotating more steady, by setting the
One bearing, can make movable plate more steady when rotated, and which has a compact structure and a reasonable design of the present invention, highly practical.
Brief description of the drawings
Fig. 1 is the cross-sectional view that the present invention faces;
Fig. 2 is the structure diagram that the present invention faces.
In figure:1 bottom plate, 2 electric pushrods, 3 first stripper plates, 4 electrolytic cell bodies, 5 second stripper plates, 6 elastic devices, 61
Telescopic rod, 62 springs, 7 first fixed links, 8 the 3rd stripper plates, 9 fixed blocks, 10 second fixed links, 11 cross bars, 12 first rotating shafts,
13 clutch shaft bearings, 14 movable plates, 15 first gears, 16 second gears, 17 motors, 18 the 3rd gears, 19 second shafts, 20 second
Bearing, 21 contiguous blocks, 22 anode stubs, 23 cathode bars, 24 circulating pumps, 25 first pipelines, 26 second pipes, 27 support legs, 28 store
Battery, 29 switches.
Embodiment
Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete
Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, those of ordinary skill in the art are obtained every other without making creative work
Embodiment, belongs to the scope of protection of the invention.
As shown in Figs. 1-2, the present invention provides a kind of technical solution:One kind automation electrolytic cell, including bottom plate 1, bottom plate 1
Lower surface is fixedly connected with four support legs 27, and four support legs 27 are located at the four corners of 1 lower surface of bottom plate respectively, by setting
Four support legs 27 are put, the support of bottom plate 1 can be made more firm, the shape of bottom plate 1 is rectangle, and the thickness of bottom plate 1 is five
Centimetre, the upper surface of bottom plate 1 is fixedly connected with electric pushrod 2, and by setting electric pushrod 2, electric pushrod 2 elongates or shortens energy
Enough electrolytic cell body 4 is driven to rise or fall, electrolytic cell body 4, which rises or falls, can be convenient for people to adjust anode stub 22 and electricity
The contact area of 4 electrolyte inside of groove body is solved, the top of electric pushrod 2 is fixedly connected with the first stripper plate 3, the first stripper plate
3 upper surface is overlapped with the lower surface of 4 outer wall of electrolytic cell body, and the left surface of 4 outer wall of electrolytic cell body is overlapped with the second extruding
Plate 5, the left surface of the second stripper plate 5 are fixedly connected with elastic device 6, and elastic device 6 includes telescopic rod 61, the table of telescopic rod 61
Surface cover is connected to spring 62, and the both ends of telescopic rod 61 and spring 62 are respectively fixedly connected with the right flank of the first fixed link 7 and
The left surface of two stripper plates 5, by setting elastic device 6, the spring 62 in elastic device 6 can be promoted to the right using its own resilient
Second stripper plate 5, the second stripper plate 5 move right electrolytic cell body 4 can be fixed it is more firm so that electrolytic cell sheet
Body 4 when in use will not run-off the straight, the left end of elastic device 6 is fixedly connected on the right flank of the first fixed link 7, and first fixes
The left surface of bar 7 be provided with storage battery 28 and switch 29, switch 29 be located at storage battery 28 tops, the output terminal of storage battery 28 with
The input terminal of switch 29 is electrically connected, and by setting storage battery 28, can store electric energy, the convenient present invention is in no external power supply
In the case of use, and switch 29 input terminal of the output terminal respectively with electric pushrod 2, motor 17 and circulating pump 24 and be electrically connected, it is logical
Setting switch 29 is crossed, the operation to 24 working status of electric pushrod 2, motor 17 and circulating pump can be convenient for people to and controlled, first
The bottom of fixed link 7 is fixedly connected with the upper surface of bottom plate 1, and the right flank of 4 outer wall of electrolytic cell body is overlapped with the 3rd extruding
Plate 8, the right flank of the 3rd stripper plate 8 are fixedly connected with fixed block 9, and the right flank of fixed block 9 is fixedly connected on the second fixed link
10 left surface, the bottom of the second fixed link 10 are fixedly connected with the upper surface of bottom plate 1, and the left surface of the second fixed link 10 is consolidated
Surely cross bar 11 is connected with, cross bar 11 is located at the top of 10 left surface of the second fixed link, and the lower surface of cross bar 11 is fixedly connected with
First rotating shaft 12, the surface of first rotating shaft 12 is socketed with clutch shaft bearing 13, by setting clutch shaft bearing 13, can make movable plate 14
More steady when rotated, clutch shaft bearing 13 is connected to the upper surface of movable plate 14, and the surface of first rotating shaft 12 is socketed with the
One gear 15, first gear 15 is located at the top of clutch shaft bearing 13, and first gear 15 is engaged with second gear 16, second gear
16 lower surface is fixedly connected with the output shaft of motor 17, and by setting motor 17, the output shaft rotation of motor 17 drives second
Gear 16 rotates, and on 15 surface of first gear, rotation can drive the 3rd gear 18 to be rotated around first gear 15 to second gear 16,
3rd gear 18 drives anode stub 22 to be rotated by contiguous block 21, and when anode stub 22 rotates itself also can be in electricity
Rotated inside solution groove body 4, so as to which directly the distance between anode stub 22 and cathode bar 23 are adjusted, motor
The lower surface of 17 fuselages is fixedly connected with the upper surface of movable plate 14, and motor 17 is located at the left side of first rotating shaft 12, and first
Gear 15 is engaged with the 3rd gear 18, and the lower surface of the 3rd gear 18 is fixedly connected with the top of the second shaft 19, the second shaft
19 are located at the right side of first rotating shaft 12, and the surface of the second shaft 19 is socketed with second bearing 20, by setting second bearing 20,
The second shaft 19 can be made rotating more steady, so that anode stub 22 is rotating more steady, second bearing 20 is connected to
The lower surface of movable plate 14, and second bearing 20 is located at the right side of 14 lower surface of movable plate, and the bottom of the second shaft 19 is fixed
Contiguous block 21 is connected with, the lower surface of contiguous block 21 is fixedly connected with anode stub 22, and the bottom of anode stub 22 is located at electrolytic cell sheet
Right side inside body 4, and cathode bar 23 is fixedly connected with the left of 4 interior lower surface of electrolytic cell body, and electrolytic cell body 4
Front is provided with circulating pump 24, and by setting circulating pump 24, the work of circulating pump 24 can extract the electrolysis in electrolytic cell body 4
Liquid, makes electrolyte flow into the inside of electrolytic cell body 4 again by the first pipeline 25 and second pipe 26, so as to promote electricity
4 electrolyte inside of solution groove body circulates, and the heat that electrolyte produces electrolytic cell body 4 at work is carried out
Heat dissipation, circulating pump 24 are connected with the left end of the first pipeline 25, and the right end of the first pipeline 25 passes through the 4 positive right side of electrolytic cell body
Side is simultaneously connected with the inside of electrolytic cell body 4, and circulating pump 24 is connected with the right end of second pipe 26, second pipe 26
Left end is connected through 4 positive left side of electrolytic cell body and with the inside of electrolytic cell body 4.
In use, people rotate the output shaft of motor 17 by Operation switch 29 first, the output shaft rotation of motor 17
Second gear 16 is driven to rotate, second gear 16 rotates on 15 surface of first gear drives movable plate 14 to be revolved around first rotating shaft 12
Turn, the rotation of movable plate 14 drives the 3rd gear 18 to be rotated around 15 rotation of first gear, and the rotation of the 3rd gear 18 drives second turn
Axis 19 rotates, and the second shaft 19 drives anode stub 22 to be rotated by contiguous block 21, and when anode stub 22 rotates itself
Also can be in 4 internal rotating of electrolytic cell body, so as to directly be adjusted the distance between anode stub 22 and cathode bar 23
Section, when the distance between anode stub 22 and cathode bar 23 are adjusted to after being convenient for people to progress cell reaction, people's Operation switch again
29 make circulating pump 24 start to work, and circulating pump 24, which works, can extract electrolyte in electrolytic cell body 4, make electrolyte by the
One pipeline 25 and second pipe 26 flow into the inside of electrolytic cell body 4 again, so as to promote the electrolysis of the inside of electrolytic cell body 4
Liquid circulates, and enables electrolyte that the heat that electrolytic cell body 4 produces at work to radiate.
It can to sum up obtain, (1), the automation electrolytic cell, by setting motor 17, the output shaft rotation of motor 17 drives second
Gear 16 rotates, and on 15 surface of first gear, rotation can drive movable plate 14 to be rotated around first rotating shaft 12 to second gear 16, living
The rotation of movable plate 14 drives the 3rd gear 18 to be rotated around first gear 15, and the rotation of the 3rd gear 18 drives the second shaft 19 to rotate,
Second shaft 19 drives anode stub 22 to be rotated by contiguous block 21, and when anode stub 22 rotates itself also can be in electricity
Rotated inside solution groove body 4, so as to which directly the distance between anode stub 22 and cathode bar 23 are adjusted, make electricity
The efficiency of 4 inside cell reaction of solution groove body is improved, and is brought convenience to people when carrying out cell reaction using electrolytic cell.
(2), the automation electrolytic cell, by setting elastic device 6, the spring 62 in elastic device 6 can utilize itself bullet
Power promotes to the right the second stripper plate 5, the second stripper plate 5 move right electrolytic cell body 4 can be fixed it is more firm so that
Make electrolytic cell body 4 when in use will not run-off the straight, by setting electric pushrod 2, electric pushrod 2 elongates or shortens being capable of band
Dynamic electrolytic cell body 4 rises or falls, and electrolytic cell body 4, which rises or falls, can be convenient for people to adjust anode stub 22 and electrolytic cell
The contact area of 4 electrolyte inside of body, so as to be brought convenience to people when carrying out cell reaction using electrolytic cell.
(3), the automation electrolytic cell, by setting four support legs 27, can make the support of bottom plate 1 more firm, lead to
Setting second bearing 20 is crossed, the second shaft 19 can be made rotating more steady, so that anode stub 22 is rotating more steady,
By setting clutch shaft bearing 13, movable plate 14 can be made more steady when rotated, and which has a compact structure and a reasonable design of the present invention,
It is highly practical.
Although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with
Understanding without departing from the principles and spirit of the present invention can carry out these embodiments a variety of changes, modification, replace
And modification, the scope of the present invention is defined by the appended.
Claims (6)
1. one kind automation electrolytic cell, including bottom plate (1), it is characterised in that:The upper surface of the bottom plate (1) is fixedly connected with electricity
Dynamic push rod (2), the top of the electric pushrod (2) are fixedly connected with the first stripper plate (3), first stripper plate (3) it is upper
Surface and the lower surface of electrolytic cell body (4) outer wall overlap, and the left surface of electrolytic cell body (4) outer wall is overlapped with second and squeezes
Pressing plate (5), the left surface of second stripper plate (5) are fixedly connected with elastic device (6), the left end of the elastic device (6)
The right flank of the first fixed link (7) is fixedly connected on, the bottom and the upper surface of bottom plate (1) of first fixed link (7) are fixed
Connection, and the right flank of electrolytic cell body (4) outer wall is overlapped with the 3rd stripper plate (8), the right flank of the 3rd stripper plate (8)
Fixed block (9) is fixedly connected with, the right flank of the fixed block (9) is fixedly connected on the left surface of the second fixed link (10), institute
The bottom for stating the second fixed link (10) is fixedly connected with the upper surface of bottom plate (1), and the left surface of the second fixed link (10) is fixed
Cross bar (11) is connected with, the cross bar (11) is located at the top of the second fixed link (10) left surface, and the lower surface of cross bar (11)
First rotating shaft (12) is fixedly connected with, the surface of the first rotating shaft (12) is socketed with clutch shaft bearing (13), the clutch shaft bearing
(13) it is connected to the upper surface of movable plate (14), and the surface of first rotating shaft (12) is socketed with first gear (15), described first
Gear (15) is located at the top of clutch shaft bearing (13), and first gear (15) is engaged with second gear (16), the second gear
(16) lower surface is fixedly connected with the output shaft of motor (17), lower surface and the movable plate (14) of motor (17) fuselage
Upper surface is fixedly connected, and motor (17) is located at the left side of first rotating shaft (12), and first gear (15) and the 3rd gear (18)
Engagement, the lower surface of the 3rd gear (18) are fixedly connected with the top of the second shaft (19), the second shaft (19) position
Second bearing (20), the second bearing (20) are socketed with the surface on the right side of first rotating shaft (12), and the second shaft (19)
The lower surface of movable plate (14) is connected to, and second bearing (20) is located at the right side of movable plate (14) lower surface, and the second shaft
(19) bottom is fixedly connected with contiguous block (21), and the lower surface of the contiguous block (21) is fixedly connected with anode stub (22), institute
The bottom for stating anode stub (22) is located at the internal right side of electrolytic cell body (4), and the left side of electrolytic cell body ((4)) interior lower surface
Side is fixedly connected with cathode bar (23), and the front of electrolytic cell body (4) is provided with circulating pump (24), the circulating pump (24) with
The left end of first pipeline (25) is connected, and the right end of first pipeline (25) passes through electrolytic cell body (4) positive right side simultaneously
It is connected with the inside of electrolytic cell body (4), and circulating pump (24) is connected with the right end of second pipe (26), second pipe
The left end in road (26) is connected through the positive left side of electrolytic cell body (4) and with the inside of electrolytic cell body (4).
A kind of 2. automation electrolytic cell according to claim 1, it is characterised in that:The elastic device (6) includes flexible
Bar (61), the surface of the telescopic rod (61) is socketed with spring (62), and the both ends of telescopic rod (61) and spring (62) are solid respectively
Surely the right flank of the first fixed link (7) and the left surface of the second stripper plate (5) are connected to.
A kind of 3. automation electrolytic cell according to claim 1, it is characterised in that:The lower surface of the bottom plate (1) is fixed
Four support legs (27) are connected with, and four support legs (27) are located at the four corners of bottom plate (1) lower surface respectively.
A kind of 4. automation electrolytic cell according to claim 1, it is characterised in that:The shape of the bottom plate (1) is rectangle,
And the thickness of bottom plate (1) is five centimetres.
A kind of 5. automation electrolytic cell according to claim 1, it is characterised in that:The left side of first fixed link (7)
Face is provided with storage battery (28) and switch (29), and the switch (29) is located at the top of storage battery (28).
A kind of 6. automation electrolytic cell according to claim 5, it is characterised in that:The output terminal of the storage battery (28) with
Switch (29) input terminal be electrically connected, and switch (29) output terminal respectively with electric pushrod (2), motor (17) and circulating pump
(24) input terminal is electrically connected.
Priority Applications (1)
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CN201810005333.1A CN107916439A (en) | 2018-01-03 | 2018-01-03 | One kind automation electrolytic cell |
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CN201810005333.1A CN107916439A (en) | 2018-01-03 | 2018-01-03 | One kind automation electrolytic cell |
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CN112499852A (en) * | 2020-12-01 | 2021-03-16 | 华东理工大学 | Device and method for treating high-concentration styrene wastewater through electrooxidation |
CN115627500A (en) * | 2022-08-10 | 2023-01-20 | 昆明理工大学 | Device for extracting zinc by electrodeposition of double electrolytic tanks |
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CN115627500A (en) * | 2022-08-10 | 2023-01-20 | 昆明理工大学 | Device for extracting zinc by electrodeposition of double electrolytic tanks |
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Application publication date: 20180417 |