1986
DOI: 10.1002/aic.690320207
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Theory of electrophoretic separations. Part II: Construction of a numerical simulation scheme and its applications

Abstract: The mathematical model outlined in Part I is recast in a form suitable for numerical computation. The spatial derivatives are replaced by finite-difference expressions, which leads to a set of ordinary differential equations coupled to a set of nonlinear algebraic relations. This system is solved using existing integration techniques. The resulting algorithm simulates the characteristic behavior of the classical modes of electrophoresis, which is shown by examples involving moving boundary electrophoresis and … Show more

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Cited by 77 publications
(85 citation statements)
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“…The isothermal model is 1-D, based upon the principles of electroneutrality and conservation of mass and charge, and represents an extension of the model which was developed at the University of Arizona [26][27][28]. It provides data that are comparable to those obtained with SIMUL5 [29], a recently developed model which is available on the net (www.natur.cuni.cz/gas).…”
Section: Electrophoresis Modelmentioning
confidence: 93%
“…The isothermal model is 1-D, based upon the principles of electroneutrality and conservation of mass and charge, and represents an extension of the model which was developed at the University of Arizona [26][27][28]. It provides data that are comparable to those obtained with SIMUL5 [29], a recently developed model which is available on the net (www.natur.cuni.cz/gas).…”
Section: Electrophoresis Modelmentioning
confidence: 93%
“…In order to simplify the system of equations; this diffusive current was assumed to be negligible compared to the current due to the applied field. To validate the model, previously published results [24,25] were reproduced.…”
Section: Simulation Of Species In An Idealized Ampholyte Buffermentioning
confidence: 99%
“…A 1-D free-flow IEF model was developed similar to Bier et al [24][25][26]. Briefly, for an idealized ionic species undergoing electrophoresis, the general time-dependent 1-D formulation is given by the following system of equations:…”
Section: Simulation Of Species In An Idealized Ampholyte Buffermentioning
confidence: 99%
“…Component fluxes are computed on the basis of electromigration, diffusion and convection (imposed flow and/or electroosmosis). The models are composed of a set of balance laws governing the transport of components in electrophoretic separations [1,37,38,40,41,43] and comprise a coupled set of non-linear partial differential equations describing the appropriate balance laws and algebraic equations describing chemical equilibria. The statement of conservation of charge includes a term for the diffusion current (for importance of diffusion current compare data of [133] with those of [134]).…”
Section: Model Features and Considerations For Running A Simulationmentioning
confidence: 99%
“…This is illustrated here with ZE, ITP, IEF and EKC separation examples. The data shown were produced with GENTRANS, the simulator based on the work of Bier, Mosher, Thormann, Breadmore and coworkers [1,37,38,44,[49][50][51][52][53][54]75].…”
Section: Simulation Examplesmentioning
confidence: 99%