Design and characterization of bubble-splitting distributor for scaled-out multiphase microreactors

[Display omitted] •Detailed analysis of the design strategies of a bubble-splitting distributor.•Identification of the three primary causes of nonuniformities in bubble size.•Theoretical and experimental analysis of the device’s performance.•Guidelines on how to operate a bubble-splitting distributo...

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Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 236; pp. 545 - 554
Main Authors Hoang, Duong A., Haringa, Cees, Portela, Luis M., Kreutzer, Michiel T., Kleijn, Chris R., van Steijn, Volkert
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.01.2014
Subjects
Asymmetric breakup
Bubble breakup
Bubbles
Bypasses
Channels
Confinement
Devices
Distributors
Microbubble
Microreactors
Nonuniformity
Numbering up
Tolerances
Bubble breakup
Confinement
Asymmetric breakup
Microbubble
Numbering up
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Abstract [Display omitted] •Detailed analysis of the design strategies of a bubble-splitting distributor.•Identification of the three primary causes of nonuniformities in bubble size.•Theoretical and experimental analysis of the device’s performance.•Guidelines on how to operate a bubble-splitting distributor. This paper reports an analysis of the parallelized production of bubbles in a microreactor based on the repeated break-up of bubbles at T-junctions linked in series. We address the question how to design and operate such a multi-junction device for the even distribution of bubbles over the exit channels. We study the influence of the three primary sources leading to the uneven distribution of bubbles: (1) nonuniformity in the size of bubbles fed to the distributor, (2) lack of bubble break-up, and (3) asymmetric bubble breakup caused by asymmetries in flow due to fabrication tolerances. Based on our theoretical and experimental analysis, we formulate two guidelines to operate the multi-junction bubble distributor. The device should be operated such that: (i) the capillary number exceeds a critical value at all junctions, Ca>Cacrit, to ensure that all bubbles break, and (ii) the parameter (ls/w)·Ca1/3 is sufficiently large, with ls/w the distance between the bubbles normalized by the channel width. More quantitatively, (ls/w)·Ca1/3>2 for fabrication tolerances below 2%, which are typical for devices made by soft lithography. Furthermore, we address the question whether including a bypass channel around the T-junctions reduces flow asymmetries and corresponding nonuniformities in bubble size. While bubble nonuniformities in devices with and without bypass channels are comparable for fabrication tolerances of a few percent, we find that incorporating a bypass channels does have a beneficial effect for larger fabrication tolerances. The results presented in this paper facilitate the scale-out of bubble-based microreactors.
AbstractList This paper reports an analysis of the parallelized production of bubbles in a microreactor based on the repeated break-up of bubbles at T-junctions linked in series. We address the question how to design and operate such a multi-junction device for the even distribution of bubbles over the exit channels. We study the influence of the three primary sources leading to the uneven distribution of bubbles: (1) nonuniformity in the size of bubbles fed to the distributor, (2) lack of bubble break-up, and (3) asymmetric bubble breakup caused by asymmetries in flow due to fabrication tolerances. Based on our theoretical and experimental analysis, we formulate two guidelines to operate the multi-junction bubble distributor. The device should be operated such that: (i) the capillary number exceeds a critical value at all junctions, Ca > Cacrit, to ensure that all bubbles break, and (ii) the parameter (ls/w) . Ca1/3 is sufficiently large, with ls/w the distance between the bubbles normalized by the channel width. More quantitatively, (ls/w) . Ca1/3 > 2 for fabrication tolerances below 2%, which are typical for devices made by soft lithography. Furthermore, we address the question whether including a bypass channel around the T-junctions reduces flow asymmetries and corresponding nonuniformities in bubble size. While bubble nonuniformities in devices with and without bypass channels are comparable for fabrication tolerances of a few percent, we find that incorporating a bypass channels does have a beneficial effect for larger fabrication tolerances. The results presented in this paper facilitate the scale-out of bubble-based microreactors.
[Display omitted] •Detailed analysis of the design strategies of a bubble-splitting distributor.•Identification of the three primary causes of nonuniformities in bubble size.•Theoretical and experimental analysis of the device’s performance.•Guidelines on how to operate a bubble-splitting distributor. This paper reports an analysis of the parallelized production of bubbles in a microreactor based on the repeated break-up of bubbles at T-junctions linked in series. We address the question how to design and operate such a multi-junction device for the even distribution of bubbles over the exit channels. We study the influence of the three primary sources leading to the uneven distribution of bubbles: (1) nonuniformity in the size of bubbles fed to the distributor, (2) lack of bubble break-up, and (3) asymmetric bubble breakup caused by asymmetries in flow due to fabrication tolerances. Based on our theoretical and experimental analysis, we formulate two guidelines to operate the multi-junction bubble distributor. The device should be operated such that: (i) the capillary number exceeds a critical value at all junctions, Ca>Cacrit, to ensure that all bubbles break, and (ii) the parameter (ls/w)·Ca1/3 is sufficiently large, with ls/w the distance between the bubbles normalized by the channel width. More quantitatively, (ls/w)·Ca1/3>2 for fabrication tolerances below 2%, which are typical for devices made by soft lithography. Furthermore, we address the question whether including a bypass channel around the T-junctions reduces flow asymmetries and corresponding nonuniformities in bubble size. While bubble nonuniformities in devices with and without bypass channels are comparable for fabrication tolerances of a few percent, we find that incorporating a bypass channels does have a beneficial effect for larger fabrication tolerances. The results presented in this paper facilitate the scale-out of bubble-based microreactors.
Author Hoang, Duong A.
Haringa, Cees
van Steijn, Volkert
Kleijn, Chris R.
Portela, Luis M.
Kreutzer, Michiel T.
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  givenname: Luis M.
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Confinement
Asymmetric breakup
Microbubble
Numbering up
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Snippet [Display omitted] •Detailed analysis of the design strategies of a bubble-splitting distributor.•Identification of the three primary causes of nonuniformities...
This paper reports an analysis of the parallelized production of bubbles in a microreactor based on the repeated break-up of bubbles at T-junctions linked in...
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elsevier
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StartPage 545
SubjectTerms Asymmetric breakup
Bubble breakup
Bubbles
Bypasses
Channels
Confinement
Devices
Distributors
Microbubble
Microreactors
Nonuniformity
Numbering up
Tolerances
Title Design and characterization of bubble-splitting distributor for scaled-out multiphase microreactors
URI https://dx.doi.org/10.1016/j.cej.2013.08.066
https://search.proquest.com/docview/1701000832
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