Electrohydrodynamic instabilities of multi-fluid flows in microfluidic systems Article Swipe

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Zijing Ding ·

YOU? · · 2016 · Open Access · · DOI: https://doi.org/10.32657/10356/69091

In the last decade, the interfacial instability and mixing enhancement in microfluidic flow systems have attracted much attention . The control of interfacial instability is very crucial in multi-phase flow systems, such as the droplet production systems. In microfluidic systems, rapid mixing has been a long-standing challenge for the small Reynolds number in which turbulence will not occur. Previous studies have demonstrated that rapid mixing can be achieved using an electric or magnetic field. In all of these systems, it is rather important to know the instability threshold. This thesis devotes to the discussion of the effects of electric field on the interfacial instability and electro-mixing in an annulus channel. Based on the evidence that the wave length is often much longer than the mean thickness of a fluid layer, Chapter 3 investigated the linear and nonlinear dynamics of a perfectly conducting liquid film coating on a metal fiber modulated by the gravity effect in the framework of longwave theory. A radial electric field was imposed between the inner fiber and a outer electrode and the dynamics of the gas phase was neglected. It was found that the electric field can either reinforce or suppress the interfacial instability by manipulating the distance between the outer electrode and the inner fiber. In Chapter 4, the interfacial instability of two coflowing annular liquids in a radial electric field has been discussed when taking into account the dynamics of the outer layer. Unlike the assumption made in Chapter 3 that the liquids were perfectly conducting, the two immiscible liquids in Chapter 4 were leaky-dielectrics. Moreover, in Chapter 4, interfacial instability of two immiscible leaky dielectric fluids was examined in the full range of wave numbers. It was found that in such a system, the interfacial instability can be either caused by the so-called Rayleigh-Plateau mechanism or the viscosity stratification between the two layers. A detailed study of the effects of normal and tangential Maxwell stresses on the two kinds of interfacial instabilities demonstrated that both of them can either stabilize or destabilize the interface, depending on the electrical properties of the two liquids. However, the two studies in Chapters 3-4 provided evidences that the interfacial instability caused by the Rayleigh-Plateau mechanism can be modulated by the external electric field and thereby control the formation of droplets. Electro-convection was investigated in Chapters 5-6. Chapter 5 discussed the electrohydrodynamic instability of an annular liquid layer with a radial electrical conductivity gradient which was developed from the imposed radial electric field. Chapter 6 studied the instability in two miscible liquids with an electrical conductivity stratification wherein a uniform axial electric field was imposed. Studies in the two chapters demonstrated that the instability is triggered by the dielectrophorectic effect. Study in Chapter 5 showed that the critical unstable mode in the annular liquid layer could be either stationary or oscillatory, dependenting on the conductivity gradient. However, in the two-miscible two flows, the critical unstable mode is always oscillatory. Furthermore, results in Chapter 5 indicated that the flow is least stable for a moderate conductivity gradient whereas Chapter 6 demonstrated that the flow is always more unstable for a larger contrast in conductivity. It should also be pointed out that, in Chapter 5, the critical instability could be reinforced by a weak shear flow; while the critical instability is always impeded by the shear flow in Chapter 6. A summary of the four Chapters 3-6 was made, and perspectives of future works built upon these works have been proposed in Chapter 7.

Related Topics

Kelvin–Helmholtz Instability

Concepts

Electrohydrodynamics Instability Microfluidics Mixing (physics) Mechanics Turbulence Annulus (botany) Reynolds number Flow control (data) Flow (mathematics) Electric field Materials science Physics Nanotechnology Engineering Telecommunications Composite material Quantum mechanics

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Type: dissertation
Language: en
Landing Page: https://doi.org/10.32657/10356/69091
PDF: https://dr.ntu.edu.sg/bitstream/10356/69091/1/PhD-thesis-DING%20ZIJING.pdf
OA Status: gold
References: 127
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DOI: https://doi.org/10.32657/10356/69091

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Title: Electrohydrodynamic instabilities of multi-fluid flows in microfluidic systems

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Type: dissertation

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Language: en

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Publication year: 2016

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Publication date: 2016-01-01

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Authors: Zijing Ding

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Landing page: https://doi.org/10.32657/10356/69091

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PDF URL: https://dr.ntu.edu.sg/bitstream/10356/69091/1/PhD-thesis-DING%20ZIJING.pdf

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Concepts: Electrohydrodynamics, Instability, Microfluidics, Mixing (physics), Mechanics, Turbulence, Annulus (botany), Reynolds number, Flow control (data), Flow (mathematics), Electric field, Materials science, Physics, Nanotechnology, Engineering, Telecommunications, Composite material, Quantum mechanics

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abstract_inverted_index.on	100, 111, 145, 322, 342, 474
abstract_inverted_index.or	71, 193, 302, 337, 471
abstract_inverted_index.to	83, 91
abstract_inverted_index.3-4	356
abstract_inverted_index.3-6	566
abstract_inverted_index.The	19
abstract_inverted_index.all	75
abstract_inverted_index.and	7, 104, 135, 170, 174, 206, 318, 376, 569
abstract_inverted_index.can	65, 190, 293, 334, 368
abstract_inverted_index.for	47, 503, 519
abstract_inverted_index.gas	179
abstract_inverted_index.has	42, 226
abstract_inverted_index.not	56
abstract_inverted_index.out	530
abstract_inverted_index.the	1, 4, 33, 48, 85, 92, 95, 101, 112, 115, 123, 133, 151, 155, 167, 175, 178, 187, 195, 200, 203, 207, 213, 233, 236, 240, 247, 252, 276, 290, 298, 303, 307, 314, 323, 339, 343, 347, 351, 360, 365, 372, 379, 392, 410, 418, 439, 444, 449, 458, 463, 475, 480, 484, 498, 513, 535, 547, 554, 563
abstract_inverted_index.two	217, 253, 268, 308, 324, 348, 352, 421, 440, 482
abstract_inverted_index.was	164, 181, 184, 273, 283, 384, 407, 435, 567
abstract_inverted_index.5-6.	388
abstract_inverted_index.This	88
abstract_inverted_index.also	527
abstract_inverted_index.been	43, 227, 579
abstract_inverted_index.both	331
abstract_inverted_index.film	143
abstract_inverted_index.flow	12, 29, 499, 514, 556
abstract_inverted_index.four	564
abstract_inverted_index.from	409
abstract_inverted_index.full	277
abstract_inverted_index.have	14, 60, 578
abstract_inverted_index.into	231
abstract_inverted_index.know	84
abstract_inverted_index.last	2
abstract_inverted_index.made	242
abstract_inverted_index.mean	124
abstract_inverted_index.mode	461, 487
abstract_inverted_index.more	517
abstract_inverted_index.much	16, 120
abstract_inverted_index.such	31, 287
abstract_inverted_index.than	122
abstract_inverted_index.that	62, 114, 186, 246, 285, 330, 359, 443, 457, 497, 512
abstract_inverted_index.them	333
abstract_inverted_index.upon	575
abstract_inverted_index.very	25
abstract_inverted_index.wave	116, 280
abstract_inverted_index.weak	543
abstract_inverted_index.were	249, 259
abstract_inverted_index.when	229
abstract_inverted_index.will	55
abstract_inverted_index.with	400, 424
abstract_inverted_index.Based	110
abstract_inverted_index.Study	452
abstract_inverted_index.axial	432
abstract_inverted_index.built	574
abstract_inverted_index.could	467, 538
abstract_inverted_index.fiber	148, 169
abstract_inverted_index.field	99, 163, 189, 225, 375, 434
abstract_inverted_index.flow;	545
abstract_inverted_index.fluid	128
abstract_inverted_index.found	185, 284
abstract_inverted_index.inner	168, 208
abstract_inverted_index.kinds	325
abstract_inverted_index.layer	399, 466
abstract_inverted_index.leaky	270
abstract_inverted_index.least	501
abstract_inverted_index.made,	568
abstract_inverted_index.metal	147
abstract_inverted_index.often	119
abstract_inverted_index.outer	172, 204, 237
abstract_inverted_index.phase	180
abstract_inverted_index.range	278
abstract_inverted_index.rapid	40, 63
abstract_inverted_index.shear	544, 555
abstract_inverted_index.small	49
abstract_inverted_index.study	312
abstract_inverted_index.that,	531
abstract_inverted_index.these	77, 576
abstract_inverted_index.using	68
abstract_inverted_index.which	53, 406
abstract_inverted_index.while	546
abstract_inverted_index.works	573, 577
abstract_inverted_index.Unlike	239
abstract_inverted_index.always	489, 516, 551
abstract_inverted_index.caused	296, 363
abstract_inverted_index.effect	153
abstract_inverted_index.either	191, 295, 335, 469
abstract_inverted_index.fiber.	209
abstract_inverted_index.field.	73, 414
abstract_inverted_index.flows,	483
abstract_inverted_index.fluids	272
abstract_inverted_index.future	572
abstract_inverted_index.larger	521
abstract_inverted_index.layer,	129
abstract_inverted_index.layer.	238
abstract_inverted_index.length	117
abstract_inverted_index.linear	134
abstract_inverted_index.liquid	142, 398, 465
abstract_inverted_index.longer	121
abstract_inverted_index.mixing	8, 41, 64
abstract_inverted_index.normal	317
abstract_inverted_index.number	51
abstract_inverted_index.occur.	57
abstract_inverted_index.radial	161, 223, 402, 412
abstract_inverted_index.rather	81
abstract_inverted_index.should	526
abstract_inverted_index.showed	456
abstract_inverted_index.stable	502
abstract_inverted_index.taking	230
abstract_inverted_index.thesis	89
abstract_inverted_index.Chapter	130, 211, 244, 257, 263, 389, 415, 454, 494, 509, 533, 558, 582
abstract_inverted_index.Maxwell	320
abstract_inverted_index.Studies	437
abstract_inverted_index.account	232
abstract_inverted_index.annular	219, 397, 464
abstract_inverted_index.annulus	108
abstract_inverted_index.between	166, 202, 306
abstract_inverted_index.coating	144
abstract_inverted_index.control	20, 378
abstract_inverted_index.crucial	26
abstract_inverted_index.decade,	3
abstract_inverted_index.devotes	90
abstract_inverted_index.droplet	34
abstract_inverted_index.effect.	451
abstract_inverted_index.effects	96, 315
abstract_inverted_index.gravity	152
abstract_inverted_index.impeded	552
abstract_inverted_index.imposed	165, 411
abstract_inverted_index.layers.	309
abstract_inverted_index.liquids	220, 248, 255, 423
abstract_inverted_index.pointed	529
abstract_inverted_index.results	492
abstract_inverted_index.studied	417
abstract_inverted_index.studies	59, 353
abstract_inverted_index.summary	561
abstract_inverted_index.system,	289
abstract_inverted_index.systems	13
abstract_inverted_index.theory.	159
abstract_inverted_index.thereby	377
abstract_inverted_index.uniform	431
abstract_inverted_index.whereas	508
abstract_inverted_index.wherein	429
abstract_inverted_index.Chapters	355, 387, 565
abstract_inverted_index.However,	350, 478
abstract_inverted_index.Previous	58
abstract_inverted_index.Reynolds	50
abstract_inverted_index.achieved	67
abstract_inverted_index.channel.	109
abstract_inverted_index.chapters	441
abstract_inverted_index.contrast	522
abstract_inverted_index.critical	459, 485, 536, 548
abstract_inverted_index.detailed	311
abstract_inverted_index.distance	201
abstract_inverted_index.dynamics	137, 176, 234
abstract_inverted_index.electric	70, 98, 162, 188, 224, 374, 413, 433
abstract_inverted_index.evidence	113
abstract_inverted_index.examined	274
abstract_inverted_index.external	373
abstract_inverted_index.gradient	405, 507
abstract_inverted_index.imposed.	436
abstract_inverted_index.liquids.	349
abstract_inverted_index.longwave	158
abstract_inverted_index.magnetic	72
abstract_inverted_index.miscible	422
abstract_inverted_index.moderate	505
abstract_inverted_index.numbers.	281
abstract_inverted_index.proposed	580
abstract_inverted_index.provided	357
abstract_inverted_index.stresses	321
abstract_inverted_index.suppress	194
abstract_inverted_index.systems,	30, 39, 78
abstract_inverted_index.systems.	36
abstract_inverted_index.unstable	460, 486, 518
abstract_inverted_index.Moreover,	261
abstract_inverted_index.attention	17
abstract_inverted_index.attracted	15
abstract_inverted_index.challenge	46
abstract_inverted_index.coflowing	218
abstract_inverted_index.depending	341
abstract_inverted_index.developed	408
abstract_inverted_index.discussed	228, 391
abstract_inverted_index.droplets.	382
abstract_inverted_index.electrode	173, 205
abstract_inverted_index.evidences	358
abstract_inverted_index.formation	380
abstract_inverted_index.framework	156
abstract_inverted_index.gradient.	477
abstract_inverted_index.important	82
abstract_inverted_index.indicated	496
abstract_inverted_index.mechanism	301, 367
abstract_inverted_index.modulated	149, 370
abstract_inverted_index.nonlinear	136
abstract_inverted_index.perfectly	140, 250
abstract_inverted_index.reinforce	192
abstract_inverted_index.so-called	299
abstract_inverted_index.stabilize	336
abstract_inverted_index.thickness	125
abstract_inverted_index.triggered	447
abstract_inverted_index.viscosity	304
abstract_inverted_index.assumption	241
abstract_inverted_index.conducting	141
abstract_inverted_index.dielectric	271
abstract_inverted_index.discussion	93
abstract_inverted_index.electrical	344, 403, 426
abstract_inverted_index.immiscible	254, 269
abstract_inverted_index.interface,	340
abstract_inverted_index.neglected.	182
abstract_inverted_index.production	35
abstract_inverted_index.properties	345
abstract_inverted_index.reinforced	540
abstract_inverted_index.stationary	470
abstract_inverted_index.tangential	319
abstract_inverted_index.threshold.	87
abstract_inverted_index.turbulence	54
abstract_inverted_index.conducting,	251
abstract_inverted_index.destabilize	338
abstract_inverted_index.enhancement	9
abstract_inverted_index.instability	6, 23, 86, 103, 197, 215, 266, 292, 362, 394, 419, 445, 537, 549
abstract_inverted_index.interfacial	5, 22, 102, 196, 214, 265, 291, 327, 361
abstract_inverted_index.multi-phase	28
abstract_inverted_index.Furthermore,	491
abstract_inverted_index.conductivity	404, 427, 476, 506
abstract_inverted_index.demonstrated	61, 329, 442, 511
abstract_inverted_index.dependenting	473
abstract_inverted_index.investigated	132, 385
abstract_inverted_index.manipulating	199
abstract_inverted_index.microfluidic	11, 38
abstract_inverted_index.oscillatory,	472
abstract_inverted_index.oscillatory.	490
abstract_inverted_index.perspectives	570
abstract_inverted_index.two-miscible	481
abstract_inverted_index.conductivity.	524
abstract_inverted_index.instabilities	328
abstract_inverted_index.long-standing	45
abstract_inverted_index.electro-mixing	105
abstract_inverted_index.stratification	305, 428
abstract_inverted_index.Rayleigh-Plateau	300, 366
abstract_inverted_index.Electro-convection	383
abstract_inverted_index.dielectrophorectic	450
abstract_inverted_index.leaky-dielectrics.	260
abstract_inverted_index.electrohydrodynamic	393
cited_by_percentile_year
corresponding_author_ids	https://openalex.org/A5047528508
countries_distinct_count	0
institutions_distinct_count	1
citation_normalized_percentile