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Ionic Transport Processes. in Electrochemistry and Membrane Science. Kyosti Kontturi, Lasse Murtomaki, and Jose A. Manzanares. Provides useful and.
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In this book, the transport of ionic species is addressed in a versatile manner,emphasizing the mutual coupling of fluxes in particular. Seller Inventory AOP New Book. Shipped from UK. Established seller since Seller Inventory FU Brand new book, sourced directly from publisher. Dispatch time is working days from our warehouse. Book will be sent in robust, secure packaging to ensure it reaches you securely. Book Description Oxford University Press. Condition: Brand New. International Edition.

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Book Description Paperback. This book discusses transport processes of ionic species at an advanced level. It is meant for postgraduate students and researchers in electrochemistry and membrane science and technology.

Shipping may be from multiple locations in the US or from the UK, depending on stock availability. Kyosti Kontturi. Publisher: Oxford University Press , This specific ISBN edition is currently not available. View all copies of this ISBN edition:. Synopsis About this title Modelling of heterogeneous processes, such as electrochemical reactions, extraction, or ion-exchange, usually requires solving the transport problem associated to the process. Review : "The main topic covered by this book, ionic transport, is of technological importance in relation to the current interest in membrane technology, for instance for developments in fuel cells.


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Buy New Learn more about this copy. Other Popular Editions of the Same Title. In the cases of gas separations , pervaporation , membrane distillation , reverse osmosis , nanofiltration , ultrafiltration , and microfiltration separations, the concentration profile has a higher level of solute nearest to the upstream membrane surface compared with the more or less well mixed bulk fluid far from the membrane surface.

In the case of dialysis and electrodialysis , the concentrations of selectively transported dissolved species are reduced at the upstream membrane surface compared to the bulk solution. The emergence of concentration gradients is illustrated in Figs. Concentration gradients have not yet formed. Thus, the upstream solution becomes depleted and the downstream solution becomes enriched in regard to species 1. The concentration gradients cause additional diffusion fluxes, which contribute to an increase of the total flux in the solutions and to a decrease of the flux in the membrane.

The current density related to this state is known as the limiting current density. Concentration polarization strongly affects the performance of the separation process. In the case of pressure driven processes, this phenomenon causes an increase of the osmotic pressure gradient in the membrane, which reduces the net driving pressure gradient. In the case of dialysis, the driving concentration gradient in the membrane is reduced. Lower rate of separation under the same external driving force means increased power consumption.

Generally, to reduce the concentration polarization, increased flow rates of the solutions between the membranes as well as spacers promoting turbulence are applied [5, 6]. This technique results in better mixing of the solution and in reducing the thickness of the diffusion boundary layer, which is defined as the region in the vicinity of an electrode or a membrane where the concentrations are different from their value in the bulk solution.

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Electroconvection is defined [8] as current-induced volume transport when an electric field is imposed through the charged solution. Several mechanisms of electroconvection are discussed. From Wikipedia, the free encyclopedia. Bard, G. Inzelt, F. Scholz Eds.

Ionic Transport Processes: in Electrochemistry and Membrane Science - Oxford Scholarship

Manzanares, K. Kontturi, In: Bard A. Hoek, M. Guiver, V. Nikonenko, V. Tarabara, A. Zydney, Membrane Terminology, in: E. Hoek, V.