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Various combinations of the driving force and moving phase determine various electrokinetic effects. According to J.Lyklema, the complete family of electrokinetic phenomena includes:
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International
Standard ISO 13099-1, 2012, "Colloidal systems – Methods for Zeta potential determination- Part 1: Electroacoustic and Electrokinetic phenomena"
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Stochastic
Modeling of Filtrate Alkalinity in Water Filtration Devices: Transport through Micro/Nano Porous Clay Based Ceramic Materials
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generates tangential motion of a fluid with respect to an adjacent charged surface. This force might be
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Characterization of liquids, nano- and micro- particulates and porous bodies using
Ultrasound
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26:, or in porous bodies filled with fluid, or in a fast flow over a flat surface. The term
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Anand
Plappally, Alfred Soboyejo, Norman Fausey, Winston Soboyejo and Larry Brown,"
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151:, as electric current generated by particles moving in fluid under influence of
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161:, as ultrasound generated by colloidal particles in oscillating electric field.
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There are detailed descriptions of electrokinetic phenomena in many books on
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Micro- and
Nanoscale Fluid Mechanics: Transport in Microfluidic Devices
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103:, as motion of liquid in porous body under influence of electric field;
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97:, as motion of charged particles under influence of electric field;
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46:. There is a common source of all these effects—the so-called
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122:, as motion of liquid in porous body under influence of the
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here means a fluid containing particles. Particles can be
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Russel, W.B., Saville, D.A., and
Schowalter, W.R. (1989)
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are a family of several different effects that occur in
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109:, as motion of particles under influence of a
278:Fundamentals of Interface and Colloid Science
135:, as electric field generated by sedimenting
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332:, Elsevier. Volume 1, Irreversible systems.
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302:Dukhin, S.S. and Derjaguin, B.V. (1974)
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50:of charges. Influence of an external
38:bubbles with sizes on the scale of a
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230:. Oxford: Oxford University Press.
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390:" J Nat Env Sci 2010 1(2):96-105.
253:Dukhin, A. S. and Goetz, P. J.
421:Non-equilibrium thermodynamics
348:. Cambridge University Press.
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291:Foundations of Colloid Science
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228:Foundations of colloid science
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1:
319:, Cambridge University Press.
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172:interface and colloid science
189:Onsager reciprocal relations
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143:streaming potential/current
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293:, Oxford University Press.
48:interfacial 'double layer'
149:colloid vibration current
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411:Condensed matter physics
304:Electrokinetic Phenomena
159:electric sonic amplitude
17:Electrokinetic phenomena
226:Hunter, Robert (2001).
199:Cationization of cotton
133:sedimentation potential
68:concentration gradient
317:Colloidal Dispersions
306:, J. Willey and Sons.
342:Kirby, B.J. (2010).
289:Hunter, R.J. (1989)
406:Colloidal chemistry
328:Kruyt, H.R. (1952)
280:, Vol. 2, p. 3.208.
276:Lyklema, J. (1995)
386:2011-02-28 at the
257:, Elsevier, 2017
124:chemical potential
111:chemical potential
355:978-0-521-11903-0
263:978-0-444-63908-0
120:capillary osmosis
64:pressure gradient
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388:Wayback Machine
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416:Soft matter
400:Categories
366:2010-09-04
205:References
153:ultrasound
139:particles;
40:micrometer
44:nanometer
384:Archived
178:See also
127:gradient
114:gradient
60:electric
137:colloid
72:gravity
54:on the
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86:Family
24:fluids
76:fluid
70:, or
52:force
32:solid
350:ISBN
259:ISBN
232:ISBN
78:or
42:or
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