Д. С. Афонин scite author profile

The diffusion permeability through new hybrid materials based on a Nafion-type membrane (MF-4SC) and nanotubes of halloysite is investigated using the Nernst-Planck approach. A method of quantitative evaluation of physicochemical parameters (averaged and individual diffusion coefficients and averaged distribution coefficients of ion pairs in the membrane) of system "electrolyte solution-ion-exchange membrane-water", which was proposed earlier, is further developed. The parameters of hybrid membranes on the base of MF-4SC and nanotubes of halloysite (5% wt and 8% wt) are obtained from experimental data on diffusion permeability of NaCl solutions using theoretical calculations. New model of three-layer membrane system can be used for refining calculated results with taking into account both diffusive layers. It is shown that adding of halloysite nanotubes into the membrane volume noticeably affects exchange capacity as well as structural and transport characteristics of original perfluorinated membranes. Hybrid membranes on the base of MF-4SC and halloysite nanotubes can be used in fuel cells and catalysis.

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Characterization of perfluorinated cation-exchange membranes MF-4SC surface modified with halloysite nanotubes

Филиппов

Афонин

Kononenko

et al. 2015

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Core-shell composite metal catalysts incased into natural ceramic nanotubes

Винокуров¹,

Берберов²,

Афонин³

et al. 2014

IOP Conf. Ser.: Mater. Sci. Eng.

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Abstract. The bimetallic halloysite nanotubes were prepared by the injection of halloysitecontaining aerosols into the microwave plasma reactor. Nanotubes contain metal nanoparticles formed from the metal salt solution in the lumen of nanotubes and the iron oxide nanoparticles at the outer surface of nanotubes. Such halloysite composites may be sputtered onto the surface of the porous carrier forming the nanostructured catalyst, as was shown by the pure halloysite sputtering onto the model porous ceramic surface.

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Production of energy-dense biomass of microalgae Botryococcus braunii and Chlorella in a photobioreactor

Котелев

Новиков

Афонин

et al. 2012

Chem Technol Fuels Oils

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We have optimized the cultivation parameters for the microalgae Botryococcus braunii and Chlorella in a photobioreactor: duration of the cultivation cycle, aeration conditions, degree of enrichment of feed air with carbon dioxide, photoperiod and light/dark cycles. We have established that the greatest increase in biomass is observed when using the drain/replenish method, withdrawing 90% of the culture fluid in a 4-day cultivation cycle for Chlorella and a 7-day cycle for Botryococcus braunii, gradually increasing the carbon dioxide content in the feed air (from 0% in the first 24 hours to 2% toward the end of the cultivation cycle), 12 hours total for the light/dark cycle and a photoperiod of 9 hours.Microalgal biomass is one of the most promising feedstocks for production of alternative motor fuels, and many experts believe it represents the future of the alternative power industry. With commercial cultivation, microalgae can accumulate up to 40% (and some species, up to 70%) lipids within their cells, which together with their fast growth rate favorably distinguishes them from higher plants [1].European countries have followed a strategy for transition to the use of alternative fuels involving addition of biofuels to conventional petroleum fuels, gradually increasing the proportion of the biofuel in the blend [2]. In such an approach, biofuels can be used without significant modification of the design of internal combustion engines, ensuring a smooth transition to alternative types of fuel.Among the many species of microalgae studied from the standpoint of obtaining energy-dense lipids, the most promising is the species Botryococcus braunii [3]. This species of microalgae produces up to 40% (relative to the dry weight of the biomass) of a specific oil consisting mainly of isoprenoids in the triterpene series. The structural formulas of some of them are given below [4][5][6].

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