CN207591318U - Novel reaction kettle gas emission device - Google Patents
Novel reaction kettle gas emission device Download PDFInfo
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- CN207591318U CN207591318U CN201721481168.4U CN201721481168U CN207591318U CN 207591318 U CN207591318 U CN 207591318U CN 201721481168 U CN201721481168 U CN 201721481168U CN 207591318 U CN207591318 U CN 207591318U
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Abstract
The utility model is related to safety and environmental protection device technical field more particularly to a kind of novel reaction kettle gas emission device.The utility model, including tower tube formula absorber, one end of the tower tube formula absorber is connected with the exhaust port of reaction kettle, and the other end is removably equipped with one-way breather valve, negative pressure sucking air pipe is equipped with above one-way breather valve, the tower tube formula absorber inner wall is equipped with reflux coldplate component.The utility model can realize automatic exhaust according to pressure change in kettle, ensure the ammonia value stabilization in reaction kettle, ensure the stabilization of reaction system in reaction kettle, and, the utility model can realize the condensation recycling of ammonia using tower tube formula absorber, so as to reduce tail gas absorption amount, reduce the use of circulation fluid, achieved the purpose that energy-saving.
Description
Technical field
The utility model is related to safety and environmental protection device technical fields more particularly to a kind of novel reaction kettle tail gas to arrange
Put device.
Background technology
At present, with the fast development of lithium electricity tertiary cathode material industry, ternary precursor industry is opened also with swift and violent hair,
In process of production, synthesis procedure is the most important thing of each research again, and the stability and advance of simultaneous reactions kettle equipment are
Ensure to make the most important guarantee of qualified products.
In existing synthesis technology, the exhaust emissions of reaction kettle is draft and the wind pressure for utilizing wind turbine, direct by air hose
Device for absorbing tail gas is evacuated to be handled.The processing mode belongs to extensive style, and the ternary precursor to become more meticulous is produced, is existed
Technique be affected, be mainly shown as following three points:First, straight take out causes the consumption of nitrogen to increase, if the input of nitrogen
Amount is insufficient, and air enters, and also there will be the risks that product is aoxidized;Second, it is straight to take out the volatilization for accelerating ammonia, cause entirely to feed intake
The flow equilibrium fluctuation of system causes reaction in kettle unstable;Third, straight take out cause the amount of tail gas to increase, the place of exhaust system
Reason amount also increases therewith, the consumption increase of energy consumption.
For example, Chinese invention patent application discloses a kind of factory exhaust system [application number:201410805803.4], it should
Patent application includes outlet fan, inlet fan and power distribution cabinet, and the outlet fan is located at relatively parallel respectively with inlet fan
Both sides, the outlet fan, inlet fan and power distribution cabinet are connected in series with.
The patent application utilizes and exports the mutual cooperation between fan and inlet fan to discharge the dust or tail in workshop
Gas, such discharge method can impact the stability of technique.
Utility model content
The purpose of this utility model is in view of the above-mentioned problems, providing a kind of novel reaction kettle gas emission device.
In order to achieve the above objectives, the utility model employs following technical proposal:
A kind of novel reaction kettle gas emission device, including tower tube formula absorber, one end of the tower tube formula absorber with
The exhaust port connection of reaction kettle, the other end are removably equipped with one-way breather valve, negative pressure are equipped with above one-way breather valve
Aspiration channel, the tower tube formula absorber inner wall are equipped with reflux coldplate component.
In above-mentioned novel reaction kettle gas emission device, the reflux coldplate component is fixed on tower including several
On tubular type absorber inner wall and along the coldplate that tower tube formula absorber is axially uniformly arranged, the coldplate is absorbed by tower tube formula
The bottom direction of the top of device to tower tube formula absorber is obliquely installed.
In above-mentioned novel reaction kettle gas emission device, the tower tube formula absorber includes tube body and is set in pipe
This external cooling collar has cooling chamber between cooling collar and tube body, cooling Filled Dielectrics are in cooling chamber, institute
State cooling collar hypomere offer will cool down medium import cooling chamber cooling medium inlet, cooling collar epimere offer by
The cooling media outlet of medium export cooling chamber is cooled down, the reflux coldplate component includes being located on tube body inner wall simultaneously
Several coldplates axially set along tube body, described coldplate one end are fixedly connected with the inner wall of tube body, and the other end is towards pipe
The direction of axis line extension of ontology.
In above-mentioned novel reaction kettle gas emission device, the coldplate is close to one end of tube body inner wall vertical
Height on direction is higher than the height of one end far from tube body inner wall in the vertical direction.
In above-mentioned novel reaction kettle gas emission device, there is cavity, described cavity one end is passed through in the coldplate
The inner wall of siphunculus ontology is connected with cooling chamber, and the other end is connected by pipeline with cooling chamber, it is described cooling medium for ethyl alcohol,
The material of the aqueous solution of brine ice or ethylene glycol, the tube body and cooling collar is stainless steel or carbon steel.
In above-mentioned novel reaction kettle gas emission device, the one-way breather valve includes and tower tube formula absorber outer wall
The shell of connection and the positive valve for being pressed on tower tube formula absorber end, the positive valve are located at the inside of shell, unidirectional to breathe
The one end of valve far from tower tube formula absorber offers guide sleeve, and guide rod one end is inserted in guide sleeve and and guide sleeve
Side walls connection, the other end is fixedly connected with positive valve.
In above-mentioned novel reaction kettle gas emission device, it is additionally provided with what is be fixedly connected with shell in the guide sleeve
Buffer spring, guide rod are connect by buffer spring with shell elasticity.
In above-mentioned novel reaction kettle gas emission device, further include at least one and be used for exhaust pipe derived from tail gas,
Described exhaust pipe one end is connected with enclosure interior, and the other end is extended into negative pressure sucking air pipe.
In above-mentioned novel reaction kettle gas emission device, a filter plate, the mistake are equipped in the negative pressure sucking air pipe
Several ventilation holes are offered on filter plate, one end of exhaust pipe is extended by ventilation hole in negative pressure sucking air pipe.
In above-mentioned novel reaction kettle gas emission device, the negative pressure sucking air pipe is set close to one end of one-way breather valve
There is baffle, one end of the baffle is fixedly connected with the outer wall of negative pressure sucking air pipe, and the other end extends towards the direction of one-way breather valve.
Compared with prior art, the utility model has the advantage of:
1st, the utility model can realize automatic exhaust according to pressure change in kettle, and high degree of automation saves human cost.
2nd, the utility model will not destroy the flow equilibrium of feeding system during tail gas is absorbed, therefore can ensure anti-
The ammonia value stabilization in kettle is answered, ensures the stabilization of reaction system in reaction kettle.
3rd, the utility model can realize the condensation recycling of ammonia using tower tube formula absorber, so as to reduce tail gas absorption
Amount, reduces the use of circulation fluid, has achieved the purpose that energy-saving.
Description of the drawings
Fig. 1 is the structure diagram of the utility model embodiment 1;
Fig. 2 is the structure diagram of the utility model embodiment 2;
Fig. 3 is the structure diagram of 2 one-way breather valve of embodiment;
Fig. 4 is the structure diagram of filter plate;
In figure:Tower tube formula absorber 1, one-way breather valve 2, negative pressure sucking air pipe 3, baffle 4, tube body 11, cooling collar 12,
Cooling chamber 13, cooling medium inlet 14, cooling media outlet 15, coldplate 16, cavity 17, pipeline 18, reflux coldplate group
Part 19, shell 21, positive valve 22, guide sleeve 23, guide rod 24, buffer spring 25, exhaust pipe 26, filter plate 31, ventilation hole
32。
Specific embodiment
The utility model is described in more detail with reference to the accompanying drawings and detailed description.
Embodiment 1
As shown in Figure 1, a kind of novel reaction kettle gas emission device, including tower tube formula absorber 1, the tower tube formula absorbs
One end of device 1 is connected with the exhaust port of reaction kettle, and the other end is removably equipped with one-way breather valve 2, one-way breather valve 2
Top is equipped with negative pressure sucking air pipe 3, and 1 inner wall of tower tube formula absorber is equipped with reflux coldplate component 19.
Specifically, the reflux coldplate component 19 is fixed on 1 inner wall of tower tube formula absorber simultaneously edge including several
The coldplate 16 that tower tube formula absorber 1 is axially uniformly arranged, the coldplate 16 is from the top of tower tube formula absorber 1 to tower tube
The bottom direction of formula absorber 1 is obliquely installed.
The utility model absorbs in use, tail gas enters tower tube formula by tower tube formula absorber 1 close to one end of reaction kettle
In device 1, the coldplate 16 being obliquely installed with the bottom direction from the top of tower tube formula absorber 1 to tower tube formula absorber 1 contacts,
A part of tail gas liquefaction is back in reaction kettle, and another part tail gas enters in one-way breather valve 2, when the pressure of tail gas is more than single
To breather valve 2 rated pressure when, one-way breather valve 2 is acted on, and unidirectionally discharges tail gas, makes pressure reduction, from unidirectional breathing
The tail gas overflowed in valve 2 is siphoned away by negative pressure sucking air pipe 3, is handled using circulation fluid absorption, therefore the utility model can be according to kettle internal pressure
Automatic exhaust is realized in power variation, and high degree of automation is saved human cost, while during tail gas is absorbed, will not be destroyed
The flow equilibrium of feeding system, therefore can ensure the ammonia value stabilization in reaction kettle, ensure the stabilization of reaction system in reaction kettle.
One end of tower tube formula absorber 1 and the exhaust port of reaction kettle are by flanged joint, and the other end is also by flange
One-way breather valve 2 is installed, 1 inner wall of tower tube formula absorber is fixedly connected with coldplate 16, and the coldplate 16 is by tower tube formula
The bottom direction of the top of absorber 1 to tower tube formula absorber 1 is obliquely installed, and coldplate 16 is along 1 axis of tower tube formula absorber
To being uniformly arranged, it is located at to absorb the negative pressure sucking air pipe 3 of the tail gas overflowed from one-way breather valve 2 generating negative pressure and is unidirectionally exhaled
The surface of valve 2 is inhaled, in use, tail gas enters tower tube formula absorber 1 by tower tube formula absorber 1 close to one end of reaction kettle
In, the coldplate 16 being obliquely installed with the bottom direction from the top of tower tube formula absorber 1 to tower tube formula absorber 1 contacts, and one
Partial tail gas liquefaction is back in reaction kettle, and another part tail gas enters in one-way breather valve 2, when the pressure of tail gas is more than unidirectional
During the rated pressure of breather valve 2, one-way breather valve 2 is acted on, and unidirectionally discharges tail gas, makes pressure reduction, from one-way breather valve 2
The tail gas of middle spilling is siphoned away by negative pressure sucking air pipe 3, is handled using circulation fluid absorption, therefore the utility model can become according to pressure in kettle
Change and realize automatic exhaust, high degree of automation saves human cost, while during tail gas is absorbed, will not destroy and feed intake
The flow equilibrium of system, therefore can ensure the ammonia value stabilization in reaction kettle, ensure the stabilization of reaction system in reaction kettle.
Embodiment 2
As shown in Fig. 2, a kind of novel reaction kettle gas emission device, including tower tube formula absorber 1, the tower tube formula absorbs
One end of device 1 is connected with the exhaust port of reaction kettle, and the other end is removably equipped with one-way breather valve 2, one-way breather valve 2
Top is equipped with negative pressure sucking air pipe 3, and 1 inner wall of tower tube formula absorber is equipped with reflux coldplate component 19.
Specifically, the tower tube formula absorber 1 includes tube body 11 and the cooling collar 12 being set in outside tube body 11,
There is cooling chamber 13, cooling Filled Dielectrics are in cooling chamber 13, the coolant jacket between cooling collar 12 and tube body 11
12 hypomere of pipe offer will cool down medium import cooling chamber 13 cooling medium inlet 14,12 epimere of cooling collar offer by
The cooling media outlet 15 of medium export cooling chamber 13 is cooled down, the reflux coldplate component 19 includes being located at tube body 11
Several coldplates 16 axially set on inner wall and along tube body 11, described 16 one end of coldplate and the inner wall of tube body 11 are fixed
Connection, the direction of axis line of the other end towards tube body 11 extend, and the coldplate 16 is close to one end of 11 inner wall of tube body perpendicular
The upward height of Nogata is higher than the height of one end far from 11 inner wall of tube body in the vertical direction, has in the coldplate 16
Cavity 17, the inner wall of described 17 one end of cavity perforation tube body 11 are connected with cooling chamber 13, the other end by pipeline 18 with it is cold
But chamber 13 connects.
One end of tower tube formula absorber 1 and the exhaust port of reaction kettle are by flanged joint, and the other end is also by flange
One-way breather valve 2 is installed, cooling collar 12 is cased with outside tower tube formula absorber 1, it is cold between cooling collar 12 and tube body 11
But be fixedly connected with coldplate 16 filled with cooling medium, 1 inner wall of tower tube formula absorber in chamber 13, the coldplate 16 by
The bottom direction of the top of tower tube formula absorber 1 to tower tube formula absorber 1 is obliquely installed, and coldplate 16, which is obliquely installed, can prevent tail
It is remained in tube body 11 after air cooling is solidifying, is conducive to condensate liquid and passes back into reaction kettle, the cavity 17 being opened in coldplate 16
The inner wall of one end perforation tube body 11 is connected with cooling chamber 13, and the other end is connected by pipeline 18 with cooling chamber 13, cooling
Medium enters from positioned at the cooling medium inlet 14 of 12 hypomere of cooling collar in cooling chamber 13, flows through cavity 17 and pipeline 18,
After heat exchange occurs with the tail gas being full of inside tube body 11 by the side wall of coldplate 16 and tube body 11, from positioned at cooling
The cooling media outlet 15 of 12 epimere of casing is discharged, and liquefaction, which is back to, after with cooling medium heat exchange occurs for a part of tail gas reacts
In kettle, another part tail gas enters in one-way breather valve 2, single when the pressure of tail gas is more than the rated pressure of one-way breather valve 2
It is acted on to breather valve 2, unidirectionally discharges tail gas, make pressure reduction, the tail gas overflowed from one-way breather valve 2 is by negative-pressure air-suction
Pipe 3 siphons away, and is handled using circulation fluid absorption, and the condensation that can realize ammonia by tower tube formula absorber 11 is recycled, so as to reduce
Tail gas absorption amount reduces the use of circulation fluid, has achieved the purpose that energy-saving.
The utility model is not limited the specific type for cooling down medium, to the material of tube body 11 and cooling collar 12
It is not construed as limiting, as long as exchange heat can be played the role of, makes tail gas condensing, but preferably, cooling medium is ethyl alcohol, cryosel
The material of the aqueous solution of water or ethylene glycol, the tube body 11 and cooling collar 12 is stainless steel or carbon steel, due to containing in tail gas
Ammonia amount is higher, therefore required condensation temperature is relatively low, and cools down medium and the aqueous solution of ethyl alcohol, brine ice or ethylene glycol is selected to can reach
Relatively low condensation temperature, and the material of tube body 11 and cooling collar 12 can bear relatively low temperature using stainless steel or carbon steel,
Extend the service life of tube body 11 and cooling collar 12.
It is further preferred that be arranged with one layer of thermal insulation layer outside cooling collar 12, can not only completely cut off in this way cooling medium with it is outer
Boundary's air generates heat exchange, is also prevented from user and accidentally touches 12 frost bitten of cooling collar, more energy saving, safety.
With reference to shown in Fig. 2 and Fig. 3, the one-way breather valve 2 include the shell 21 that is connect with 1 outer wall of tower tube formula absorber and
The positive valve 22 of 1 end of tower tube formula absorber is pressed on, the positive valve 22 is located at the inside of shell 21, and one-way breather valve 2 is remote
One end from tower tube formula absorber 1 offers guide sleeve 23,24 one end of guide rod be inserted in guide sleeve 23 and with guiding
The side walls connection of casing 23, the other end are fixedly connected with positive valve 22.
Shell 21 is connected to 1 one end far from reaction kettle of tower tube formula absorber, has a positive valve 22, positive pressure in shell 21
Valve 22 is pressed on 1 end of tower tube formula absorber and is connect with 1 end part seal of tower tube formula absorber, and one-way breather valve 2 is far from tower tube
One end of formula absorber 1 offers guide sleeve 23,24 one end of guide rod be inserted in guide sleeve 23 and with guide sleeve 23
Side walls connection, the other end is fixedly connected with positive valve 22, and when tail gas pressure is more than rated pressure, positive valve 22 is pushed up
It rises, movement straight up is done under the guiding of guide sleeve 23 and guide rod 24, tail gas enters in shell 21 at this time, and by outer
Shell 21 is spilled over to outside one-way breather valve 2, is sucked into negative pressure sucking air pipe 3.
Preferably, the buffer spring 25 being fixedly connected with shell 21 is additionally provided in the guide sleeve 23, guide rod 24 is logical
Buffer spring 25 and 21 elastic connection of shell are crossed, can prevent tail gas pressure from increasing suddenly in this way, causes guide rod 24 and shell
It collides and damages between 21.
Preferably, at least one is further included for exhaust pipe 26 derived from tail gas, described 26 one end of exhaust pipe and housing 21
Inside connection, the other end are extended into negative pressure sucking air pipe 3, and the tail gas being spilled over in this way in shell 21 can be direct by exhaust pipe 26
Into in negative pressure sucking air pipe 3, prevent tail gas from leaking.
With reference to shown in Fig. 2 and Fig. 4, a filter plate 31 is equipped in the negative pressure sucking air pipe 3, is offered on the filter plate 31
Several ventilation holes 32, one end of exhaust pipe 26 are extended by ventilation hole 32 in negative pressure sucking air pipe 3, and the setting of filter plate 31 can
While ensureing that tail gas is inhaled into from ventilation hole 32, the object of bulky grain is prevented to be inhaled into and leads to the stifled of negative pressure sucking air pipe 3
Plug.
As shown in Fig. 2, the negative pressure sucking air pipe 3 close to one end of one-way breather valve 2 be equipped with baffle 4, the one of the baffle 4
End is fixedly connected with the outer wall of negative pressure sucking air pipe 3, and the other end extends towards the direction of one-way breather valve 2, and baffle 4 is close to air draught
The graphics area that 3 one end of pipe is enclosed is less than the graphics area enclosed far from 3 one end of aspiration channel, i.e., cutting on its vertical direction
Face flare can further prevent tail gas to leak in this way.
The operation principle of the utility model is:In use, tail gas by tower tube formula absorber 1 close to one end of reaction kettle into
Enter in tower tube formula absorber 1, with entering in cooling chamber 13 from positioned at the cooling medium inlet 14 of 12 hypomere of cooling collar, flow through
The cooling medium of cavity 17 and pipeline 18, after heat exchange occurs by the side wall of coldplate 16 and tube body 11, a part of tail gas
It is back in reaction kettle with liquefying after cooling medium generation heat exchange, another part tail gas enters in one-way breather valve 2, works as tail gas
Pressure be more than one-way breather valve 2 rated pressure when, positive valve 22 is jacked up, in the guiding of guide sleeve 23 and guide rod 24
Under do movement straight up, tail gas enters in shell 21, then by the guiding of exhaust pipe 26 and/or the convergence of baffle 4, tail at this time
Gas is inhaled into negative pressure sucking air pipe 3.
The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute
Described specific embodiment can be done various modifications or additions or using similar by belonging to those skilled in the art
Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.
Although tower tube formula absorber 1, one-way breather valve 2, negative pressure sucking air pipe 3, baffle 4, Guan Ben is used more herein
Body 11, cooling collar 12, cooling chamber 13, cooling medium inlet 14, cooling media outlet 15, coldplate 16, cavity 17, pipeline
18th, reflux coldplate component 19, shell 21, positive valve 22, guide sleeve 23, guide rod 24, buffer spring 25, exhaust pipe 26,
The terms such as filter plate 31, ventilation hole 32, but it does not preclude the possibility of using other terms.The use of these items is only for
More easily describe and explain the essence of the utility model;Being construed as any one of the additional limitations is all and this practicality
What novel spirit was disagreed.
Claims (10)
1. a kind of novel reaction kettle gas emission device, it is characterised in that:Including tower tube formula absorber (1), the tower tube formula is inhaled
The one end for receiving device (1) is connected with the exhaust port of reaction kettle, and the other end is removably equipped with one-way breather valve (2), unidirectionally
Negative pressure sucking air pipe (3) is equipped with above breather valve (2), described tower tube formula absorber (1) inner wall is equipped with reflux coldplate component
(19)。
2. novel reaction kettle gas emission device as described in claim 1, it is characterised in that:The reflux coldplate component
(19) it is fixed on the cooling being uniformly arranged on tower tube formula absorber (1) inner wall and axially along tower tube formula absorber (1) including several
Plate (16), bottom direction of the coldplate (16) from the top of tower tube formula absorber (1) to tower tube formula absorber (1) tilt
Setting.
3. novel reaction kettle gas emission device as described in claim 1, it is characterised in that:The tower tube formula absorber (1)
Including tube body (11) and the cooling collar (12) of tube body (11) outside is set in, between cooling collar (12) and tube body (11)
With cooling chamber (13), for cooling Filled Dielectrics in cooling chamber (13), cooling collar (12) hypomere offers will be cold
But medium imports the cooling medium inlet (14) of cooling chamber (13), and cooling collar (12) epimere is offered cooling medium export
The cooling media outlet (15) of cooling chamber (13), the reflux coldplate component (19) is including being located at tube body (11) inner wall
Several coldplates (16) that are upper and axially being set along tube body (11), described coldplate (16) one end and the inner wall of tube body (11)
It is fixedly connected, the direction of axis line of the other end towards tube body (11) extends.
4. novel reaction kettle gas emission device as claimed in claim 3, it is characterised in that:The coldplate (16) is close to pipe
The height of one end of ontology (11) inner wall in the vertical direction is higher than one end far from tube body (11) inner wall in the vertical direction
Height.
5. novel reaction kettle gas emission device as claimed in claim 3, it is characterised in that:Have in the coldplate (16)
Cavity (17), the inner wall of cavity (17) one end perforation tube body (11) are connected with cooling chamber (13), and the other end passes through pipe
Road (18) is connected with cooling chamber (13), aqueous solution of the cooling medium for ethyl alcohol, brine ice or ethylene glycol, the tube body
(11) and the material of cooling collar (12) is stainless steel or carbon steel.
6. novel reaction kettle gas emission device as described in claim 1, it is characterised in that:One-way breather valve (2) packet
The shell (21) being connect with tower tube formula absorber (1) outer wall and the positive valve (22) for being pressed on tower tube formula absorber (1) end are included,
The positive valve (22) offers positioned at the inside of shell (21), the one end of one-way breather valve (2) far from tower tube formula absorber (1)
Guide sleeve (23), guide rod (24) one end are inserted in guide sleeve (23) and connect with the side walls of guide sleeve (23)
It connects, the other end is fixedly connected with positive valve (22).
7. novel reaction kettle gas emission device as claimed in claim 6, it is characterised in that:In the guide sleeve (23) also
Equipped with the buffer spring (25) being fixedly connected with shell (21), guide rod (24) passes through buffer spring (25) and shell (21) elasticity
Connection.
8. novel reaction kettle gas emission device as claimed in claim 6, it is characterised in that:At least one is further included for tail
It is connected inside exhaust pipe derived from gas (26), described exhaust pipe (26) one end and shell (21), the other end extends into negative-pressure air-suction
It manages in (3).
9. novel reaction kettle gas emission device as claimed in claim 8, it is characterised in that:In the negative pressure sucking air pipe (3)
Equipped with a filter plate (31), several ventilation holes (32) are offered on the filter plate (31), one end of exhaust pipe (26) passes through
Ventilation hole (32) is extended into negative pressure sucking air pipe (3).
10. novel reaction kettle gas emission device as described in claim 1, it is characterised in that:The negative pressure sucking air pipe (3) is leaned on
One end of nearly one-way breather valve (2) is equipped with baffle (4), and one end of the baffle (4) is fixed with the outer wall of negative pressure sucking air pipe (3) to be connected
It connects, the other end extends towards the direction of one-way breather valve (2).
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CN201721481168.4U CN207591318U (en) | 2017-11-08 | 2017-11-08 | Novel reaction kettle gas emission device |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109331742A (en) * | 2018-11-20 | 2019-02-15 | 盘锦泓实环保科技有限公司 | A kind of high-temperature reactor with respiratory function |
CN110433760A (en) * | 2019-09-12 | 2019-11-12 | 华友新能源科技(衢州)有限公司 | A method of it is anti-oxidation suitable for ternary precursor synthesis process |
CN110756140A (en) * | 2019-11-05 | 2020-02-07 | 华友新能源科技(衢州)有限公司 | Method for concentrating materials in ternary precursor synthesis reaction |
-
2017
- 2017-11-08 CN CN201721481168.4U patent/CN207591318U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109331742A (en) * | 2018-11-20 | 2019-02-15 | 盘锦泓实环保科技有限公司 | A kind of high-temperature reactor with respiratory function |
CN109331742B (en) * | 2018-11-20 | 2021-03-02 | 盘锦泓实环保科技有限公司 | High-temperature reactor with breathing function |
CN110433760A (en) * | 2019-09-12 | 2019-11-12 | 华友新能源科技(衢州)有限公司 | A method of it is anti-oxidation suitable for ternary precursor synthesis process |
CN110756140A (en) * | 2019-11-05 | 2020-02-07 | 华友新能源科技(衢州)有限公司 | Method for concentrating materials in ternary precursor synthesis reaction |
CN110756140B (en) * | 2019-11-05 | 2022-07-12 | 华友新能源科技(衢州)有限公司 | Method for concentrating materials in ternary precursor synthesis reaction |
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