Котлярова Н. А., Костиков В. А., Кольцова Э. М. Компьютерное моделирование мембранного катализа на основе аппарата механики сплошных сред // Успехи в химии и химической технологии: сб. науч. труд. Том XXX, № 4 (173). — Т. 4. — Москва, 2016. — С. 71–73.
Axial vibration control of melt structure of sodium nitrate in crystal growth process / A. Sadovskiy, E. Sukhanova, S. Belov et al. // Journal of Crystal Growth. — 2015. — Vol. 417. — P. 16–24. The melt structure evolution under the action of the low-frequency axial vibration control (AVC) technique was studied in situ by Raman spectroscopy for several complex chemical compound melts: sodium nitrate, margarine acid, paraffin mixture (C17-C20). The measurements were conducted in the temperature range from the melting point up to 60 oC above. Comparison of crystallization heats for AVC activated and steady melts with melting heats of AVC-CZ and conventional CZ produced powders allowed to propose the energy diagram of NaNO3 states for activated and non-activated melts and crystals based on DTA, XRD, DSC and Raman experimental data. [ DOI ]
Axial vibration control of melt structure of sodium nitrate in crystalgrowth process / S. Andrey, S. Ekaterina, B. Stanislav et al. // Journal of Crystal Growth. — 2015. — no. 417. — P. 16–24.
Simulation and crystal growth of cdte by axial vibration control technique in bridgman configuration / I. K. Avetisov, E. A. Sukhanova, A. V. Khomyakov et al. // Journal of Crystal Growth. — 2011. — Vol. 318. — P. 528–532. The technique of axial vibration control (AVC) in the vertical Bridgman configuration assisted by the control of vapor by the Van Doorn technique was applied to CdTe crystal growth. The setup was designed and crystals were grown at various partial pressures of Te and Cd. For the designed setup the numerical simulation using FLUENT software was carried out. The influence of baffle configuration on melt flow patterns and flow velocities was analyzed. [ DOI ]
МАТЕМАТИЧЕСКАЯ МОДЕЛЬ ПРОЦЕССА ПОКРЫТИЯ ГРАНУЛ В СЫПУЧИХ СРЕДАХ С ИСПОЛЬЗОВАНИЕМ МЕТОДА МОМЕНТОВ ФУНКЦИИ РАСПРЕДЕЛЕНИЯ (МАКРОМОДЕЛЬ) / А. М. Васецкий, Н. С. Кучинский, В. А. Костиков и др. // Успехи в химии и химической технологии. — 2011. — Т. 25, № 1. — С. 58–61.
Experimental and numerical modeling of czochralski crystal growth under axial vibrational control of the melt / I. C. Avetissov, E. A. Sukhanova, A. P. Sadovskii et al. // Journal of Crystal Growth. — 2010. — Vol. 312. — P. 1429–1433. A novel scheme of application of axial vibration control (AVC) technique for Czochralski crystal growth has been realized by means of oscillating baffle submerged under the growing crystal. Modeling of heat-mass transfer in the growth system has been produced by both physical experiments with water– glycerol mixture and computer simulations using FLUENT software. The laminar vibrational flows, which suppressed thermoconvectional flows, have been arranged in the proposed AVC configuration. The vibrational flows were stable and well controlled in the viscosity range 1–400 cPz, whenever the crystal–melt interface was under or over the melt surface. The direction of the vibrational flows was favorable for crystal growth. Simulations demonstrated that the shape of the crystal–melt interface is strongly dependent on vibrational parameters. [ DOI ]
Костиков В. А., Кольцова Э. М., Аветисов И. Х. РАСЧЕТ ТЕЧЕНИЙ РАСПЛАВА В УСТАНОВКЕ ВЫРАЩИВАНИЯ МОНОКРИСТАЛЛОВ ТЕЛЛУРИДА КАДМИЯ ПО МЕТОДУ БРИДЖМЕНА С ВИБРАЦИОННЫМ ВОЗДЕЙСТВИЕМ НА РАСПЛАВ // Успехи в химии и химической технологии. — 2007. — Т. 21, № 3. — С. 119–120.