CN206121719U - Mixed reaction channel of heterogeneous stream and micro -reactor - Google Patents
Mixed reaction channel of heterogeneous stream and micro -reactor Download PDFInfo
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- CN206121719U CN206121719U CN201621157659.9U CN201621157659U CN206121719U CN 206121719 U CN206121719 U CN 206121719U CN 201621157659 U CN201621157659 U CN 201621157659U CN 206121719 U CN206121719 U CN 206121719U
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- passage
- main road
- road
- hybrid reaction
- bypass passage
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Abstract
The utility model relates to a mixed reaction channel of heterogeneous stream and micro -reactor, the heterogeneous reaction access structure that mixes includes main road passageway and the branch road passageway of at least one, every the branch road passageway with the main road passageway is crossing and communicate in crossing department, the mixed zone is converged in formation, and lie in in the main road passageway it still is provided with the edge to converge the position of mixed zone the main road reposition of redundant personnel structure of the reaction flow of fluid direction extension in the main road passageway. It can guarantee multiple liquid intensive mixing to improve the yield of reactant.
Description
Technical field
This utility model is related to chemical production technical field, more particularly to a kind of multiphase flow hybrid reaction passage and micro- anti-
Answer device.
Background technology
In chemical industry or medicine production, the reaction work between multiple fluid is carried out by microreactor
What mixing was realized.
At present the microreactor used in production is to adopt successively to note multiple fluid by one or more passages
Enter in blending space, and multiple fluid is mixed in blending space, channel design is fairly simple.Due to multiple fluid
It is that static mixing naturally is carried out after into blending space, the undercompounding of multiple fluid easily occurs in its presence, causes anti-
The shortcoming for answering the yield of thing not high.
Utility model content
In view of this, it is energy that this utility model provides a kind of multiphase flow hybrid reaction passage and microreactor main purpose
Enough ensure that multiple fluid is sufficiently mixed, so as to improve the yield of reactant.
To reach above-mentioned purpose, this utility model mainly provides following technical scheme:
On the one hand, this utility model provides a kind of multiphase hybrid reaction channel design, including main road passage and at least one
Bypass passage, each described bypass passage intersect with the main road passage and in intersection connection, formed and confluxed mixed zone, and
Position positioned at the mixed zone of confluxing in the main road passage is additionally provided with the reacting fluid in the main road passage
The main road flow dividing structure that flow direction extends.
More preferably, the main road flow dividing structure includes that at least one flow direction of the reacting fluid along the main road passage extends
The main road splitter box of setting, the main road splitter box is by the main road channel partition into allow reacting fluid to pass through at least two
Main road split channel.
More preferably, the main road splitter box is multiple and parallel each other and arranges at intervals, the adjacent main road
The first equal predeterminable range is spaced between splitter box.
More preferably, the position positioned at the mixed zone of confluxing in the bypass passage is additionally provided with along the bypass passage
In reacting fluid flow direction extend branch road flow dividing structure.
More preferably, the branch road flow dividing structure includes more than one branch road splitter box, and along the bypass passage
The flow direction of reacting fluid is disposed to extend, the branch road splitter box by the bypass passage be separated into two or more it is parallel, allow
The branch road split channel that reacting fluid passes through.
More preferably, the main road passage includes at least one planar outer surfaces, and the main road with the bypass passage
Between passage and the bypass passage by respective planar outer surfaces it is bonded to each other be stacked together and by the face of fitting
Connection is formed, in the mixed zone of confluxing stacked connecting is formed.
More preferably, when with main road split channel and during branch road split channel:Outside the plane of the main road passage
The first communicating passage communicated with the branch road split channel with branch road split channel opposite position formation on surface;
Formed and the main road point with the main road split channel opposite position in the planar outer surfaces of the bypass passage
The second communicating passage that circulation road is communicated.
More preferably, the end of the fluid flow direction of the branch road split channel is set to cecum, and with the main road passage
One side flush.
More preferably, the position that the bypass passage connects with the main road passage is arranged so that in the bypass passage
Flowing to for reacting fluid in the flow direction of reacting fluid and the main road passage is perpendicular.
A kind of microreactor, including arbitrary aforesaid multiphase hybrid reaction channel design.
By above-mentioned technical proposal, under a kind of multiphase flow hybrid reaction passage of this utility model and microreactor at least have
Row advantage:
This utility model by intersected with the main road passage using each described bypass passage and intersection connection, shape
Into mixed zone of confluxing, and the position positioned at the mixed zone of confluxing in the main road passage is additionally provided with along the main road passage
In reacting fluid flow direction extend main road flow dividing structure technical scheme, ensure that plurality of liquid is sufficiently mixed,
So as to improve the yield of reactant.
Described above is only the general introduction of technical solutions of the utility model, in order to better understand skill of the present utility model
Art means, and being practiced according to the content of description, with preferred embodiment of the present utility model and coordinate accompanying drawing detailed below
Describe in detail bright as after.
Description of the drawings
Fig. 1 is the structural representation of the embodiment of multiphase flow hybrid reaction passage one of the present utility model;
Fig. 2 is the top view of Fig. 1;
Wherein, 1- main roads passage;11- main road feeder connections;2- bypass passages;21- bypass passage entrances;3- main roads are shunted
Structure;31- main road splitter boxs;32- main road split channels;4- branch road flow dividing structures;41- branch road splitter boxs;The shunting of 42- branch roads is logical
Road.
Specific embodiment
It is concrete below in conjunction with this utility model to make the purpose of this utility model, technical scheme and advantage clearer
Embodiment and corresponding accompanying drawing are clearly and completely described to technical solutions of the utility model.Obviously, described embodiment
Only it is a part of embodiment of this utility model, rather than the embodiment of whole.Based on the embodiment in this utility model, this area
The every other embodiment that those of ordinary skill is obtained under the premise of creative work is not made, belongs to this utility model
The scope of protection.
As depicted in figs. 1 and 2, a kind of branch road of multiphase flow hybrid reaction passage, including main road passage 1 and at least one leads to
Road 2, each bypass passage 2 intersects with main road passage 1 and connects, forms mixed zone of confluxing in intersection, and in main road passage 1
The main road shunting knot that the flow direction for being additionally provided with the reacting fluid in main road passage 1 positioned at the position of mixed zone of confluxing extends
Structure 3.The wherein quantity of bypass passage 2 can determine that the quantity of such as reacting fluid is three kinds according to the quantity of reacting fluid,
Then the quantity of bypass passage 2 is two.Because reaction can produce certain heat, main road passage 1 and at least one between fluid
Bypass passage 2 can according to use demand, consider heat exchange and corrosion resistance, Rational choice material, can preferably adopt metal
Make Deng the preferable material of heat conductivility, be beneficial to radiating.
When using, the branch road that multiple fluid can pass through on main road feeder connection and bypass passage 2 on main road passage 1 leads to
Road entrance respectively enters main road passage 1 and bypass passage 2, and the mixed zone of confluxing formed with main road passage 1 in bypass passage 2 is entered
Row mixing.So inject the fluid of main road passage 1 and bypass passage 2, can marginal not enter side mixing, so ensure that fluid it
Between be sufficiently mixed, and then make its reaction more fully, improve the yield of reactant.
Used as a kind of embodiment, main road flow dividing structure 3 includes at least one reacting fluid stream along main road passage 1
To extended main road splitter box 31, main road passage 1 is separated into permission reacting fluid and is passed through at least by main road splitter box 31
Two main road split channels 32.So the fluid stream in main road passage 1 can be divided at least two beams fluid stream, then with
Fluid stream mixing in paths 2, so can more effectively improve the stream in the fluid and bypass passage 2 in main road passage 1
The adequacy of body mixing.More preferably, main road splitter box 31 is multiple and parallel each other and arranges at intervals, adjacent main
The first equal predeterminable range is spaced between road splitter box 31, i.e., multiple main road split channels 32 are parallel to each other, and according to this etc. between
Away from setting.
Used as a kind of embodiment, the position positioned at mixed zone of confluxing in bypass passage 2 is additionally provided with logical along branch road
The branch road flow dividing structure 4 that the flow direction of the reacting fluid in road 2 extends.Specifically, branch road flow dividing structure 4 includes more than one
Road splitter box 41, and the flow direction of the reacting fluid in bypass passage is disposed to extend, branch road splitter box 41 separates bypass passage
Branch road split channel 42 that is parallel into two or more, allowing reacting fluid to pass through.So can be by the fluid in bypass passage 2
Stream is divided at least two beams fluid stream, is then mixing with the fluid stream in main road passage 1, so can more effectively improve main road
The adequacy of the fluid mixing in the fluid and bypass passage 2 in passage 1.Preferably, branch road splitter box 41 is multiple and each other
Between it is parallel and arrange at intervals, the second equal predeterminable range, i.e., multiple branch roads are spaced between adjacent legs splitter box 41
Split channel 42 is parallel to each other, and spaced set according to this.
More preferably, main road passage 1 includes at least one planar outer surfaces, and main road passage 1 and branch road with bypass passage 2
Between passage 2 by respective planar outer surfaces it is bonded to each other be stacked together and by fit face formed connection, converge
Stream mixed zone forms stacked connecting.Specifically, when with main road split channel 32 and bypass passage 2 with main road passage 1:
The communicated with branch road split channel is formed with the opposite position of branch road split channel 42 in the planar outer surfaces of main road passage 1
One communicating passage (not shown);Formed with the opposite position of main road split channel 32 in the planar outer surfaces of bypass passage 2
The second communicating passage (not shown) communicated with main road split channel 32.
Preferably, the end of the fluid flow direction of branch road split channel 42 is set to cecum, and with a side of main road passage 1
Flush.Can so make the profile of the multiphase hybrid reaction channel design more regular.
More preferably, the position that bypass passage 2 connects with main road passage 1 is arranged so that the reacting fluid in bypass passage 2
Flow direction and main road passage 1 in reacting fluid flow to it is perpendicular.Specifically can be using branch road split channel 42 and main road point
The orthogonal design of circulation road 32.Bypass passage 2 can be so set mutually to hang down with the fluid stream in main road passage 1
Fling and hit, and this impulsive force can produce the effect of stirring, so that mixed effect is more preferably.
To realize that utility model purpose this utility model also provides a kind of microreactor, including any of the above technical characteristic
Multiphase hybrid reaction channel design.
In sum, skilled addressee readily understands that, on the premise of not conflicting, above-mentioned each advantageous manner can
Freely to combine, be superimposed.
The above, is only preferred embodiment of the present utility model, not makees any formal to this utility model
Restriction, above example is made any simple modification, equivalent variations and modification according to technical spirit of the present utility model,
Still fall within the range of technical solutions of the utility model.
Claims (10)
1. a kind of multiphase flow hybrid reaction passage, it is characterised in that:Including main road passage and at least one bypass passage, each
The bypass passage intersects with the main road passage and connects, forms mixed zone of confluxing in intersection, and in the main road passage
In be located at the position of the mixed zone of confluxing and be additionally provided with what the flow direction of reacting fluid in the main road passage extended
Main road flow dividing structure.
2. multiphase flow hybrid reaction passage according to claim 1, it is characterised in that:The main road flow dividing structure include to
The extended main road splitter box of few one flow direction of the reacting fluid along the main road passage, the main road splitter box will be described
Main road channel partition is at least two main road split channels for allowing reacting fluid to pass through.
3. multiphase flow hybrid reaction passage according to claim 2, it is characterised in that:The main road splitter box for it is multiple,
And it is parallel each other and arrange at intervals, it is spaced the first equal predeterminable range between the adjacent main road splitter box.
4. the multiphase flow hybrid reaction passage according to one of claim 1-3, it is characterised in that:In the bypass passage
The branch road point that the flow direction of the reacting fluid being additionally provided with positioned at the position of the mixed zone of confluxing in the bypass passage extends
Flow structure.
5. multiphase flow hybrid reaction passage according to claim 4, it is characterised in that:The branch road flow dividing structure includes one
Branch road splitter box more than individual, and the flow direction of the reacting fluid in the bypass passage is disposed to extend, the branch road splitter box
The bypass passage is separated into two or more is parallel, allow the branch road split channel that passes through of reacting fluid.
6. the multiphase flow hybrid reaction passage according to claim 1-3, described in one of 5, it is characterised in that:The main road passage with
The bypass passage is included between at least one planar outer surfaces, and the main road passage and the bypass passage by respective
Planar outer surfaces be stacked together bonded to each otherly and by fit face formed connection, in the mixed zone cambium layer that confluxes
Stacked connects.
7. multiphase flow hybrid reaction passage according to claim 6, it is characterised in that:When with main road split channel and
During the split channel of road:In the planar outer surfaces of the main road passage and the branch road split channel opposite position shape
Into the first communicating passage communicated with the branch road split channel;In the planar outer surfaces of the bypass passage and institute
State main road split channel opposite position and form the second communicating passage communicated with the main road split channel.
8. multiphase flow hybrid reaction passage according to claim 6, it is characterised in that:The fluid of the branch road split channel
The end of flow direction is set to cecum, and with a side flush of the main road passage.
9. the multiphase flow hybrid reaction passage according to claim 1-3, described in one of 5,7-8, it is characterised in that:The branch road leads to
The position that road connects with the main road passage is arranged so that the flow direction and the main road of the reacting fluid in the bypass passage
Flowing to for reacting fluid in passage is perpendicular.
10. a kind of microreactor, it is characterised in that:Including the multiphase flow hybrid reaction passage described in one of claim 1-9.
Priority Applications (1)
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CN201621157659.9U CN206121719U (en) | 2016-10-31 | 2016-10-31 | Mixed reaction channel of heterogeneous stream and micro -reactor |
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CN201621157659.9U CN206121719U (en) | 2016-10-31 | 2016-10-31 | Mixed reaction channel of heterogeneous stream and micro -reactor |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106334505A (en) * | 2016-10-31 | 2017-01-18 | 山东豪迈化工技术有限公司 | Multiphase flow hybrid-reaction channel and microreactor |
CN108409603A (en) * | 2018-02-27 | 2018-08-17 | 山东豪迈化工技术有限公司 | The synthetic method of phenyl-pentafluoride formonitrile HCN |
-
2016
- 2016-10-31 CN CN201621157659.9U patent/CN206121719U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106334505A (en) * | 2016-10-31 | 2017-01-18 | 山东豪迈化工技术有限公司 | Multiphase flow hybrid-reaction channel and microreactor |
CN106334505B (en) * | 2016-10-31 | 2019-04-19 | 山东豪迈化工技术有限公司 | A kind of multiphase flow hybrid reaction channel and microreactor |
CN108409603A (en) * | 2018-02-27 | 2018-08-17 | 山东豪迈化工技术有限公司 | The synthetic method of phenyl-pentafluoride formonitrile HCN |
CN108409603B (en) * | 2018-02-27 | 2021-04-16 | 山东豪迈化工技术有限公司 | Synthesis method of pentafluorobenzonitrile |
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AV01 | Patent right actively abandoned |
Granted publication date: 20170426 Effective date of abandoning: 20190419 |
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AV01 | Patent right actively abandoned |