Advanced search
Publication Cover
European Journal of Engineering Education Volume 42, 2017 - Issue 5
Submit an article Journal homepage
172
Views
2
CrossRef citations to date
0
Altmetric
Regular Articles

The acquisition and transfer of knowledge of electrokinetic-hydrodynamics (EKHD) fundamentals: an introductory graduate-level course

Jennifer PascalDepartment of Chemical Engineering, Tennessee Technological University, Cookeville, TN, USAView further author information
,
Rocío Tíjaro-RojasDepartment of Environmental Engineering, Universidad Arturo Prat, Iquique, ChileView further author information
,
Mario A. OyanaderChemical Engineering Department, California Baptist University, Riverside, CA, USAView further author information
&
Pedro E. ArceDepartment of Chemical Engineering, Tennessee Technological University, Cookeville, TN, USACorrespondence[email protected]
View further author information
Pages 493-512 | Received 13 May 2015, Accepted 10 May 2016, Published online: 03 Aug 2016

References

  • Anderson, T. B., and R. Jackson. 1967. “Fluid Mechanical Description of Fluid Beds. Equation of Motion.” Industrial & Engineering Chemistry Fundamentals 7: 17–21.
  • Arce, P., J. R. Sanders, A. Arce-Trigatti, L. Loggins, J. Biernacki, M. Geist, J. Pascal, and K. Wiant. 2015. “ The Renaissance Foundry: A Powerful Learning and Thinking Systems to Develop the 21st Century Da Vinci Engineers.” Critical Conversations 1 (2): 176–202.
  • Arce, P., and L. B. Schreiber. 2004. High Performance Learning Environments, Hi-PeLE. Journal of Chemical Engineering Education Fall issue: 286–291.
  • Aris, R. 1956. “On Dispersion of a Solute in a Fluid Flowing Through a Tube.” Proceedings of the Royal Society of London Series A: Mathematical and Physical Sciences 235 (1200): 67–77.
  • Aris, R. 1962. Vectors, Tensors and the Basic Equations of Fluid Dynamics. Englewood Cliffs, NJ: Prentice-Hall.
  • Arrhenius, S. 1887. “ The Foundations of the Theory of Dilute Solutions.” Physical Chemistry 1: 631–648.
  • Audubert, R., and S. De Mende. 1959. The Principles of Electrophoresis. London: Hutchinson.
  • Batchelor, G. K. 1954. “Heat Transfer by Free Convection Across a Closed Cavity Between Vertical Boundaries at Different Temperatures.” Quarterly of Applied Mathematics 12 (3): 209–233.
  • Bird, R. B., W. E. Stewart, and E. N. Lightfoot. 2007. Transport Phenomena. New York: John Wiley & Sons.
  • Boland, M., P. Arce, and E. Erdmann. 2000. “Free Convection Flows in Fibrous or Porous Media: A Solution for the Case of Homogeneous Heat Sources.” International Communications in Heat and Mass Transfer 27 (6): 745–754.
  • Bosse, M. A., and P. Arce. 2000a. “Role of Joule Heating in Dispersive Mixing Effects in Electrophoretic Cells: Convective–Diffusive Transport Aspects.” Electrophoresis 21 (5): 1026–1033.
  • Bosse, M. A., and P. Arce. 2000b. “The Role of Joule Heating in Dispersive Mixing Effects in Electrophoretic Cells: Hydrodynamic Considerations.” Electrophoresis 21 (5): 1018–1025.
  • Brenner, H., and D. Edwards. 1993. Macrotransport Processes. Stoneham, MA: Butterworth-Heinemann.
  • Brush, S. G. 1979. “Nineteenth-century Debates about the Inside of the Earth: Solid, Liquid or Gas?” Annals of Science 36 (3): 225–254.
  • Buschmann, V., K. D. Weston, and M. Sauer. 2003. “ Spectroscopic Study and Evaluation of Red-adsorbing Fluorescent.” Bioconjugate Chemistry 14, 195–204.
  • Calfa-Luna, A. 2001. B.Sc. Honor Thesis. Antofagasta, Chile: Universidad Católica del Norte.
  • Chandrasekhar, S., and J. Gills. 1962. “Hydrodynamic and Hydromagnetic Stability.” Physics Today 15: 58–64.
  • Chapman, D. L. 1913. “Contribution to the Theory of Electrocapillarity.” Philosophical Magazine Series 25 (6): 475–481.
  • Debye, P., and E. Hückel. 1923. “ Zur Theorie der Elektrolyte. I. Gefrierpunktserniedrigung und verwandte Erscheinungen” [The Theory of Electrolytes. I. Lowering of Freezing Point and Related Phenomena]. Physikalische Zeischrift 24: 185–206.
  • Delgado, A. 2001. Interfacial Electrokinetics and Electrophoresis. New York: Marcel Dekker.
  • Devasenathipathy, S., J. G. Santiago, S. T. Wereley, C. D. Meinhart, and K. Takehara. 2003. “Particle Imaging Techniques for Microfabricated Fluidic Systems.” Experiments in Fluids 34 (4): 504–514.
  • Elimelech, M., X. Jia, J. Gregory, and R. Williams. 1998. Particle Deposition & Aggregation: Measurement, Modelling and Simulation. London: Butterworth-Heinemann.
  • Evans, D., and H. Wennerström. 1999. The Colloidal Domain: Where Physics, Chemistry, Biology, and Technology Meet. New York: Wiley.
  • Faraday, M. 1834. “Experimental Researches in Electricity. Seventh Series.” Philosophical Transactions of the Royal Society of London 124: 77–122.
  • Felder, R., and R. Brent. 2016. Teaching and Learning STEM: A Practical Guide. New York: Jossey-Bass, A Wiley Brand.
  • Gebhart, B., Y. Jaluria, R. L. Mahajan, and B. Sammakia. 1988. Buoyancy-induced Flows and Transport. New York: Hemisphere.
  • Gent, D. B., R. M. Bricka, A. N. Alshawabkeh, S. L. Larson, G. Fabian, and S. Granade. 2004. “Bench- and Field-scale Evaluation of Chromium and Cadmium Extraction by Electrokinetics.” Journal of Hazardous Materials 110 (1): 53–62.
  • Golbayani, P. M. (2011). “Morphological Effects on the Electrostatic Potential in a Divergent and Convergent Channel for Microfluidic Applications.” 22, 11. American Electrophoresis Society, Minneapolis, MN.
  • Gouy, M. 1910. “Sur la constitution de la charge electrique a la surface d'un electrolyte.” Journal of Physics 4 (9): 457–466.
  • Gray, W. G. 1975. “Derivation of the Equations for Multi-phase Transport.” Chemical Engineering Science 30: 229–233.
  • Hansen, H. K., V. Lamas, C. Gutierrez, P. Nunez, A. Rojo, C. Cameselle, and Lisbeth M. Ottosen. 2013. “Electro-remediation of Copper Mine Tailings. Comparing Copper Removal Efficiencies for Two Tailings of Different Age.” Minerals Engineering 41: 1–8.
  • Happel, J., and H. Brenner. 1983. Low Reynolds Number Hydrodynamics: With Special Applications to Particulate Media. Vol. 1. Englewood Cliffs, NJ: Springer.
  • Helmholtz. H. 1879. “ Studien uber electrische grenzschichten.” Annualen der Physik 243 (7): 3337–3382.
  • Henry, D. C. 1931. “The Cataphoresis of Suspended Particles. Part I. The Equation of Cataphoresis.” Proceedings of the Royal Society of London Series A 133 (821): 106–129.
  • Herold, K., and A. Rasooly. 2009. Lab on a Chip. Volume 1: Fabrication and Mircofluidics. Norfolk, VA: Caister Academic Press.
  • Hidalgo, R., M. A. Oyanader, and P. Arce. 2007. “In Dispersive Mixing Effect Caused by Combined Effect of Channel Morphology and Electrophoretic Mobility in Poiseuille Flows.” AIChE Annual Meeting, Salt Lake City, UT.
  • Hiemenz, P. C., and R. Rajagopalan. 1997. Principles of Colloid and Surface Chemistry, Third Edition, Revised and Expanded. New York: Marcel Dekker.
  • Horner, M., and P. L. Arce, and Bruce R. Locke. 1995. “Convective–Diffusive Transport and Reaction in Arterial Stenoses Using Lubrication and Area-averaging Methods.” Industrial & Engineering Chemistry Research 34: 3426–3436.
  • Hückel, P., and E. Debye. 1923. “The Theory of Electrolytes I. Lowering of Freezing Point and Related Phenomena.” Physikalische Zeitschrift 24: 185–206.
  • Hunter, R. J. 2003. Introduction to Modern Colloid Science. New York: Oxford Science.
  • Jacobs, R. A., and R. F. Probstein. 1996. “Two-dimensional Modeling of Electroremediation.” AIChE Journal 42 (6): 1685–1696.
  • Jaroszeski, M. J., R. Heller, and R. Gilbert. 2000. Electrochemotherapy, Electrogenetherapy, and Transdermal Drug Delivery. Totowa, NJ: Humana.
  • Joshi, A. A., B. R. Locke, P. Arce, and W. C. Finney. 1995. “Formation of Hydroxyl Radicals, Hydrogen Peroxide and Aqueous Electrons by Pulsed Streamer Corona Discharge in Aqueous Solution.” Journal of Hazardous Materials 41 (1): 3–30.
  • Kim, M. J., A. Beskok, and K. D Kihm. 2002. “ Electro-Osmosis Driven Micro-channel Flows: A Comparative Study of Microscopic Particle Image Velocimetry Measurements and Numerical Calculations.” Experiments in Fluids 33, 170–180.
  • Koryta, J. D., and A. M. Bond. 1987. Principles of Electrochemistry. New York: Wiley.
  • Kowalski, K. P., S. S. Nielsen, P. E. Jensen, T. H. Larsen, M. Terkelsen, and C. Bagge. 2015. “Feasibility of an Integration of an Electrodialytic Process into Soil Remediation Procedure for Removal of Copper, Chromium and Arsenic.” International Conference Contaminated Sites, Bratislava, Slovakia.
  • Laidler, K. J., and H. Gerischer. 1995. The World of Physical Chemistry. 3 Vols. New York: Oxford University Press.
  • Levich, V. G. 1962. Physicochemical Hydrodynamics. Englewood Cliffs, NJ: Prentice-Hall.
  • Levine, S., and G. Neale. 1974. “Electrophoretic Mobility of Multiparticle Systems.” Journal of Colloid and Interface Science 49 (2): 330–332.
  • Li, D. 2004. Electrokinetics in Microfluidics. Amsterdam: Elsevier.
  • Locke, B. R. 2002. “The Effect of Obstacle Conductivity and Electric Field on Effective Mobility and Dispersion in Electrophoretic Transport: A Volume Averaging Approach.” Electrophoresis 23 (16): 2745–2754.
  • Locke, B. R., and P. Arce. 1993. “Modeling Electrophoretic Transport of Polyelectrolytes in Beds of Nonporous Spheres.” Separations Technology 3 (2): 111–120.
  • Locke, B. R., P. Arce, and Y. Park. 1993. “Applications of Self-adjoint Operators to Electrophoretic Transport, Enzyme Reactions, and Microwave Heating Problems in Composite Media—II. Electrophoretic Transport in Layered Membranes.” Chemical Engineering Science 48 (23): 4007–4022.
  • Locke, B. R., and S. H. Trinh. 1999. “When Can the Ogston–Morris–Rodbard–Chrambach Model be Applied to Gel Electrophoresis?” Electrophoresis 20 (17): 3331–3334.
  • López-García, J. J., J. Horno, and C. Grosse. 2001. “Numerical Solution of the Poisson–Boltzmann Equation for Suspended Charged Particles Surrounded by a Charged Permeable Membrane.” Physical Chemistry Chemical Physics 3 (17): 3754–3760.
  • Maizares, A., M. Oyanader, and P. Arce. 2006. “Pulsed-Corona High Oxidation Reactors in Gas Phase Applications: Effect of the Field Variation on Reactor Conversion.” AIChE Annual Meeting, San Francisco, CA.
  • Marica, F., S. Bea Jofré, K. Mayer, B. Balcom, and T. Al. 2011. “Determination of Spatially-resolved Porosity, Tracer Distributions and Diffusion Coefficients in Porous Media Using MRI Measurements and Numerical Simulations.” Journal of Contaminant Hydrology 125 (1–4): 47–56.
  • Masliyah, J., and S. Bhattacharje. 2006. Electrokinetic and Colloid Transport Phenomena. Hoboken, NJ: John Wiley and Sons.
  • Meinhart, C. D., S. T. Werely, and M. H. B. Gray. 2000. “Volume Illumination for Two-dimensional Particle Image Velocimetry.” Measurement Science and Technology 11: 809–814.
  • Melcher, J. 1981. Continuum Electromechanics. Boston, MA: MIT Press.
  • Melcher, J. R., and G. I. Taylor. 1969. “Electrohydrodynamics: A Review of the Role of Interfacial Shear Stresses.” Annual Review of Fluid Mechanics 1 (1): 111–146.
  • Moffatt, H. 1989. “Liquid Metal MHD and the Geodynamo.” In Liquid Metal Magneto-Hydrodynamics, edited by J. Lielpeteris and R. J. Moreau, 403–412. Berlin: Springer.
  • Moncada-Hernandez Hector, Javier L. Baylon-Cardiel, Victor H. Pérez-González, and Blanca H. Lapizco-Encinas. 2011. “Insulator-based Dielectrophoresis of Microorganisms: Theoretical and Experimental Results.” Electrophoresis 32 (18): 2502–2511.
  • Morgan, H., D. Holmes, and N. G. Green. 2003. “3D Focusing of Nanoparticles in Microfluidic Channels.” IEE Proceedings 150 (2): 76–81.
  • Morrison, I. D., and S. Ross. 2002. Colloidal Dispersions: Suspensions, Emulsions, and Foams. New York: Wiley-Interscience.
  • Neal, R. E., J. H. Rossmeisl, P. A. Garcia, O. I. Lanz, N. Henao-Guerrero, and R. V. Davalos. 2011. “Successful Treatment of a Large Soft Tissue Sarcoma with Irreversible Electroporation.” Journal of Clinical Oncology 29 (13): e372–e377.
  • Newman, J., and K. E. Thomas-Alyea. 2012. Electrochemical Systems. Upper Saddle River, NJ: John Wiley & Sons.
  • O’Hara, R. P., A. O. Mario, and P. E. Arce. 2005. “The Adiabatic-core Case in Electrokinetic-based Coating Processes.” AIChE Annual Meeting, Cincinnati, OH.
  • Ostwald, W. 1980. Electrochemistry: History and Theory: Elektrochemie: Ihre Geschichte und Lehre. Washington, DC: Smithsonian Institution and the National Science Foundation.
  • Oyanader, M. A. 2004. “Physicochemical and Hydrodynamics Aspects of Electrokinetics in Soil Remediation [A Study Based on Fundamental Principles and Modeling Approaches] Electronic Theses, Treatises and Dissertations. Paper 2432.” Thesis diss., Florida State University, Tallahassee, FL.
  • Oyanader, M., and P. Arce. 2005a. “Role of Geometrical Dimensions in Electrophoresis Applications with Orthogonal Fields.” Electrophoresis 26 (15): 2857–2866.
  • Oyanader, M., and P. E. Arce. 2005b. “A New and Simpler Approach for the Solution of the Electrostatic Potential Differential Equation. Enhanced Solution for Planar, Cylindrical and Annular Geometries.” Journal of Colloid and Interface Science 284 (1): 315–322.
  • Oyanader, M., and P. Arce. 2007. “An Effective Analytical–Algorithmic Approach to Solve Diffusion-type Differential Equations with Non-linear Sources: Unbounded Domains.” Computers & Chemical Engineering 31 (9), 1174–1180.
  • Oyanader, M. A., P. E. Arce, and J. D. Bolden. 2013. “Role of Joule Heating in Electro-assisted Processes: A Boundary Layer Approach for Rectangular Electrode.” International Journal of Chemical Reactor Engineering 11 (2): 815–823.
  • Oyanader, M. A., P. Arce, and A. Dzurik. 2003. “Avoiding Pitfalls in Electrokinetic Remediation: Robust Design and Operation Criteria Based on First Principles for Maximizing Performance in a Rectangular Geometry.” Electrophoresis 24 (19–20): 3457–3466.
  • Oyanader, M. A., P. Arce, and A. Dzurik. 2005a. “Design Criteria for Soil Cleaning Operations in Electrokinetic Remediation: Hydrodynamic Aspects in a Cylindrical Geometry.” Electrophoresis 26 (15): 2878–2887.
  • Oyanader, M. A., P. E. Arce, and A. Dzurik. 2005b. “Design Criteria for Soil Cleaning Operations in Electrokinetic Remediation: Hydrodynamic Aspects in an Annular Geometry.” Industrial & Engineering Chemistry Research 44 (16): 6200–6211.
  • Oyanader, M. A., P. E. Arce, and A. Dzurik. 2008. “Role of Geometry of Capillary Bundles on Flow Reversal in Electrokinetic Soil Reclamation: A Comparative Study Based on the Microscopic Scale.” Journal of Porous Media 11 (8): 733–750.
  • Paine, M., R. Carbonell, and S. Whitaker. 1983. “Dispersion in Pulsed Systems-I: Heterogeneous Reaction and Reversible Adsorption in Capillary Tubes.” Chemical Engineering Science 38 (11): 1781–1793.
  • Pascal, J., R. O’Hara, M. Oyanader, and P. E. Arce. 2008. “Optimal Separation Times for Electrical Field Flow Fractionation with Couette Flows.” Electrophoresis 29 (20): 4238–4246.
  • Pascal, J., M. Oyanader, and P. E. Arce. 2010. “Effect of Wall Velocities on the Determination of Optimal Separation Times in Electrical Field Flow Fractionation (EFFF).” The Canadian Journal of Chemical Engineering 88 (3): 384–391.
  • Pascal, J., M. Oyanader, and P. Arce. 2012. “Effect of Capillary Geometry on Predicting Electroosmotic Volumetric Flowrates in Porous or Fibrous Media.” Journal of Colloid and Interface Science 378 (1): 241–250.
  • Paz-Garcia, J. 2012. Physicochemical and Numerical Modeling of Electrokinetics in Inhomogeneous Matrices. Technical University of Denmark, Civil Engineering Report R-276 (UK).
  • Paz-Garcia, J. M., K. Bank, I. D. Alshawabkeh, and A. N. Alshawabkeh. 2012. “A Generalized Model for the Transport of Contaminants in Soil by Electrical Fields.” Journal of Environmental Science and Health. Part A, Environmental Science and Engineering & Toxic and Hazardous Substance Control 47 (2): 308–318.
  • Paz-García, J. M., B. Johannesson, L. M. Ottosen, A. B. Ribeiro, and J. M. Rodríguez-Maroto. 2011. “Modeling of Electrokinetic Processes by Finite Element Integration of the Nernst–Planck–Poisson System of Equations.” Separation and Purification Technology 79 (2): 183–192.
  • Paz-Garcia, J. M., B. Johannesson, L. M. Ottosen, A. B. Ribeiro, and J. M. Rodríguez-Maroto. 2013. “Simulation-based Analysis of the Differences in the Removal Rate of Chlorides, Nitrates and Sulfates by Electrokinetic Desalination Treatments.” Electrochimica Acta 89: 436–444.
  • Phillips, C., W. C. Finney, and P. E. Arce. 1998. “Sewage Water Clarification by Electrosettling Methods: Preliminary Results.” II Encuentro Latinoamericano de Ing. Química y Química y XIII Congreso Chileno de Ingeniería Química, Antofagasta.
  • Pless, M., and U. Weinberg. 2011. “Tumor Treating Fields: Concept, Evidence and Future.” Expert Opinion on Investigational Drugs 20 (8): 1099–1106.
  • Pohl, H. A. 1951. “The Motion and Precipitation of Suspensoids in Divergent Electric Fields.” Journal of Applied Physics 22: 869–875.
  • Pridemore, H., and P. E. Arce. 2004. “Microchannel Geometry in Relation to the Behavior of the Transport of Macromolecules in Nanostructured Gel Materials.” The Annual Meeting of the American Electrophoresis Society, Austin, TX.
  • Probstein, R. F. 2005. Physicochemical Hydrodynamics: An Introduction. New York: John Wiley & Sons.
  • Quist, J. D., and E. R. Washburn. 1940. “A Study in Electrokinetics.” Journal of the American Chemical Society 62 (1): 3169–3172.
  • Rajagopalan, R., and C. S. Hirtzel. 1985. Colloidal Phenomena: Advanced Topics. New York: William Andrew.
  • Rathore, A., and A. Guttman. 2003. Electrokinetic Phenomena: Principles and Applications in Analytical Chemistry and Microchip Technology. New York: Marcel Dekker.
  • Rawlings, R., S. Allen, and P. E. Arce. 2005. “The Personalized Class Binder (PCB): A Powerful Tool for Enhancing Active and Collaborative Learning Environments.” ASEE Southeast Section Conference, Chattanooga, TN.
  • Reddy, K. R., and C. Cameselle. 2009. Electrochemical Remediation Technologies for Polluted Soils, Sediments and Groundwater. Hoboken, NJ: John Wiley & Sons.
  • Reuss, F. F. 1809. “Charge-induced Flow.” Proceedings of the Imperial Society of Naturalists of Moscow 1809 (3): 327–344.
  • Rill, R. L., B. R. Locke, Y. Liu, J. Dharia, and D. Van Winkle. 1996. “Protein Electrophoresis in Polyacrylamide Gels with Templated Pores.” Electrophoresis 17 (8): 1304–1312.
  • Robinson, R. A., and R. H. Stokes. 1961. Electrolyte Solutions. 2nd ed. Mineola, NY: Courier Dover Publications.
  • Russel, W. B., D. A. Saville, and W. R. Schowalter. 1992. Colloidal Dispersions. New York: Cambridge University Press.
  • Sadyrbaeva, T. Z. 2016. “Removal of Chromium (VI) from Aqueous Solutions Using a Novel Hybrid Liquid Membrane—Electrodialysis Process.” Chemical Engineering and Processing: Process Intensification 99: 183–191.
  • Santiago, J. G., S. T. Werely, C. D. Meinhat, D. J. Beebe, and R. J. Adrian. 1998. “A Particle Image Velocimetry System for Microfluidics.” Experiment in Fluids 25 (41): 316–319.
  • Sauer, S., and P. Arce. 2007. “High Performance Learning Environments [Hi-PeLE]: Role of Team Functions on the Design, Implementation, and Assessment.” AIChE Annual Meeting, Salt Lake City, UT.
  • Sauer, S. G., B. R. Locke, and P. Arce. 1995. “Effects of Axial and Orthogonal Applied Electric Fields on Solute Transport in Poiseuille Flows. An Area Averaging Approach.” Industrial & Engineering Chemistry Research 34 (3): 886–894.
  • Saville, D. 1980. “The Fluid Mechanics of Continuous Flow Electrophoresis in Perspective.” Physicochemical Hydrodynamic 1 (4): 297–307.
  • Schowalter, W. R. 1978. Mechanics of Non-Newtonian Fluids. Oxford: Pergamon Press.
  • Sersa, G., D. Miklavcic, M. Cemazar, Z. Rudolf, G. Pucihar, and M. Snoj. 2008. “Electrochemotherapy in Treatment of Tumours.” European Journal of Surgical Oncology 34 (2): 232–240.
  • Sharma, A. K., B. R. Locke, P. Arce, and W. C. Finney. 1993. “A Preliminary Study of Pulsed Streamer Corona Discharge for the Degradation of Phenol in Aqueous Solutions.” Hazardous Waste and Hazardous Materials 10 (2): 209–219.
  • Simhadri, J. J., H. A. Stretz, M. Oyanader, and P. E. Arce. 2010. “Role of Nanocomposite Hydrogel Morphology in the Electrophoretic Separation of Biomolecules: A Review.” Industrial & Engineering Chemistry Research 49 (23): 11866–11877.
  • Slater, G. W., C. Desruisseaux, S. J. Hubert, J. F. Mercier, J. Labrie, J. Boileau, F. Tessier, and M. P. Pekin. 2000. “Theory of DNA Electrophoresis: A Look at Some Current Challenges.” Electrophoresis 21 (18): 3873–3887.
  • Slattery, J. C. 1967. “Flow of Viscoelastic Fluids Through Porous Medi.” AIChE Journal 13 (6): 1066–1071.
  • Slattery, J. 1972. Momentum, Energy, and Mass Transfer in Continua. New York: McGraw-Hill.
  • Stern, O. 1924. “The Theory of the Electrolytic Double-layer.” Zeit Elektrochemistry 30: 508–516.
  • Taylor, G. I. 1953. “Dispersion of Soluble Matter in Solvent Flowing Slowly Through a Tube.” Proceedings of the Royal Society of London Series A: Mathematical and Physical Sciences 219: 186–203.
  • Thompson, J. W., H. A. Stretz, P. E. Arce, H. Gao, H. J. Ploehn, and J. He. 2012. “Effect of Magnetization on the Gel Structure and Protein Electrophoresis in Polyacrylamide Hydrogel Nanocomposites.” Journal of Applied Polymer Science 126 (5): 1600–1612.
  • Tíjaro-Rojas, R., and P. Arce. 2012. “A Systematic and Integrative Sequence Approach (SISA) for Computing Velocity Profiles.” AIChE Annual Meeting, Pittsburg, PA.
  • Tíjaro-Rojas, R., and P. Arce. 2013. “Modeling Electrokinetic-Soil Cleaning by Spatial Averaging.” AIChE Annual Meeting, San Francisco, CA.
  • Tiselius, A. 1937. “A New Apparatus for Electrophoretic Analysis of Colloidal Mixtures.” Transactions of the Faraday Society 33: 524–531.
  • Trinh, S., P. Arce, and B. R. Locke. 2000. “Effective Diffusivities of Point-like Molecules in Isotropic Porous Media by Monte Carlo Simulation.” Transport in Porous Media 38 (3): 241–259.
  • Trinh, S., B. R. Locke, and P. Arce. 1999. “Diffusive–Convective and Diffusive–Electroconvective Transport in Non-uniform Channels with Application to Macromolecular Separations.” Separation and Purification Technology 15 (3): 255–269.
  • Trinh, S., B. R. Locke, and P. Arce. 2002. “Effective Diffusivity Tensors of Point-like Molecules in Anisotropic Porous Media by Monte Carlo Simulation.” Transport in Porous Media 47 (3): 279–293.
  • Volta, A., and J. Banks. 1800. “On the Electricity Excited by the Mere Contact of Conducting Substances of Different Kinds.” Philosophical Magazine Series 17 (28): 289–311.
  • Whitaker, S. 1967. “Diffusion and Dispersion in Porous Media.” AIChE Journal 13 (3): 420–427.
  • Whitaker, S. 1986. “Flow in Porous Media I: A Theoretical Derivation of Darcy’s Law.” Transport in Porous Media 1 (1): 3–25.
  • Whitaker, S. 1992. Introduction to Fluid Mechanics. Melbourne, FL: Krieger.
  • Whitaker, S. 1998. The Method of Volume Averaging Theory and Applications of Transport in Porous Media. Norwell, MA: Springer.
  • Woodson, H. H., and J. R. Melcher. 1968. Electrochemical Dynamics: Part II- Fields, Forces and Motion. New York: John Wiley & Sons.
  • Yeung, A. T., and Y. Gu. 2011. “A Review on Techniques to Enhance Electrochemical Remediation of Contaminated Soils.” Journal of Hazardous Materials 195: 11–29.
  • Zanotti, F., and R. G. Carbonell. 1984a. “Development of Transport Equations for Multiphase System—I: General Development for Two Phase System.” Chemical Engineering Science 39 (2): 263–278.
  • Zanotti, F., and R. G. Carbonell. 1984b. “Development of Transport Equations for Multiphase Systems—II: Application to One-dimensional Axi-symmetric Flows of Two Phases.” Chemical Engineering Science 39 (2): 279–297.
  • Zanotti, F., and R. G. Carbonell. 1984c. “Development of Transport Equations for Multiphase Systems—III: Application to Heat Transfer in Packed Beds.” Chemical Engineering Science 39 (2): 299–311.
  • Zetter, C., and M. Yoda. 2003. “Particle Velocity Field Measurements in a Near-wall Flow Using Evanescent Wave Illumination.” Experiments in Fluids 34 (1): 115–121.
  • Zhang, Y., K. Ghyselbrecht, B. Meesschaert, L. Pinoy, and B. Van der Bruggen. 2011. “Electrodialysis on RO Concentrate to Improve Water Recovery in Wastewater Reclamation.” Journal of Membrane Science 378 (1): 101–110.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.