Журнал Сибирского федерального университета. Техника и технологии. Journal of Siberian Federal University. Engineering & Technologies

Журнал Сибирского федерального университета. Техника и технологии. Journal of Siberian Federal University. Engineering & Technologies №1 2014

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ID	285893
Аннотация	Cерия журнала «Техника и технологии» отражает самую массовую группу инженерных научных направлений Сибирского федерального университета. Целью создания серии является развитие фундаментальных исследований в области инженерных наук в СФУ, обеспечение международного приоритета научных работ преподавателей, сотрудников, аспирантов, докторантов вуза, а также интеграция журнала в международное информационное пространство.

Журнал Сибирского федерального университета. Техника и технологии. Journal of Siberian Federal University. Engineering & Technologies .— 2014 .— №1 .— 124 с. — URL: https://rucont.ru/efd/285893 (дата обращения: 19.05.2024)

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Журнал Сибирского федерального университета Journal of Siberian Federal University Техника и технологии Engineering & Technologies Редакционный совет академик РАН Е. <...> Зуев Editorial Advisory Board Chairman: Eugene A. Vaganov Members: Josef J. Gitelzon Vasily F. Shabanov Andrey G. Degermendzhy Valery L. Mironov Gennady L. Pashkov Vladimir V. Shaidurov Vladimir V. Zuev Editorial Board: Editor-in-Chief: Mikhail I. Gladyshev Founding Editor: Vladimir I. Kolmakov Managing Editor: Olga F. Alexandrova Executive Editor for Engineering & Technologies: Vladimir A. Kulagin CONTENTS / СОДЕРЖАНИЕ Liudmila V. Kashkina, Olesya P. Stebeleva, Tatiana Y. Emelyanova, Eleonora A. Petrakovskaya and Oleg A. Bayukov Hydrodynamic Dispersion of Calcium Aluminosilicate from Technogenic and Nonmetallic Materials – 3 – Anna A. Lyamkina, Sergey P. Moshchenko, Yuri G. Galitsyn and Alexey I. Lyamkin Plasmonic Antenna for Bright NV Centers in Ultradispersed Detonation Diamonds – 13 – Sergey P. Sahanskiy Control of the Shape of Semiconductor Crystals when Growing in Czochralski Method – 20 – А. <...> C!, 2014 7 (1) Editorial board for Engineering & Technologies: Vladimir Kulagin – Series Editor, Siberian Federal University, Russia Yury Alashkevich – Siberian State Technological University, Russia Sereeter Batmцnkh – Institute of Heat Engineering and Industrial Ecology Mongolian Academy of Sciences, Mongolia Yuri Biba – Dresser-Rand Company, USA Carsten Drebenstedt – Technische University Bergakademie Freiberg, Germany Yury Galerkin – Saint Petersburg State Polytechnic University, Russia Gennady Gritsko – Institute of Petroleum Geology and Geophysics Russian Academy of Sciences, Siberian Branch, Russia Georg Guggenberger – Institute of Soil Science Leibniz University Hannover, Germany Lev Endzhievsky – Siberian Federal University, Russia Feng-Chen Li – School of Energy Science and Engineering Harbin Institute of Technology, China Vladimir Makarov – Siberian Federal University, Russia Aleksandr Mineev – Siberian Federal University, Russia Vladimir Moskvichev – Special Designing and Technological Bureau “Nauka” Krasnoyarsk Scientifi c Center of the Russian Academy of Sciences, Siberian Branch, Russia Bernard Nacke – Institute <...>

Журнал_Сибирского_федерального_университета._Сер._Техника_и_технологии_№1_2014.pdf

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Журнал_Сибирского_федерального_университета._Сер._Техника_и_технологии_№1_2014.pdf

Журнал Сибирского федерального университета Journal of Siberian Federal University Техника и технологии Engineering & Technologies Редакционный совет академик РАН Е.А. Ваганов академик РАН И.И. Гительзон академик РАН А.Г. Дегерменджи академик РАН В.Ф. Шабанов чл.-корр. РАН, д-р физ.-мат. наук В.Л. Миронов чл.-корр. РАН, д-р техн. наук Г.Л. Пашков чл.-корр. РАН, д-р физ.-мат. наук В.В. Шайдуров чл.-корр. РАН, д-р физ.-мат. наук В.В. Зуев Editorial Advisory Board Chairman: Eugene A. Vaganov Members: Josef J. Gitelzon Vasily F. Shabanov Andrey G. Degermendzhy Valery L. Mironov Gennady L. Pashkov Vladimir V. Shaidurov Vladimir V. Zuev Editorial Board: Editor-in-Chief: Mikhail I. Gladyshev Founding Editor: Vladimir I. Kolmakov Managing Editor: Olga F. Alexandrova Executive Editor for Engineering & Technologies: Vladimir A. Kulagin CONTENTS / СОДЕРЖАНИЕ Liudmila V. Kashkina, Olesya P. Stebeleva, Tatiana Y. Emelyanova, Eleonora A. Petrakovskaya and Oleg A. Bayukov Hydrodynamic Dispersion of Calcium Aluminosilicate from Technogenic and Nonmetallic Materials – 3 – Anna A. Lyamkina, Sergey P. Moshchenko, Yuri G. Galitsyn and Alexey I. Lyamkin Plasmonic Antenna for Bright NV Centers in Ultradispersed Detonation Diamonds – 13 – Sergey P. Sahanskiy Control of the Shape of Semiconductor Crystals when Growing in Czochralski Method – 20 – À.Â. Ìèíàêîâ, Ä.Â. Ãóçåé, À.Ñ. Ëîáàñîâ, Ä.À. Äåêòåðåâ, Ì.È. Пряжников p=“че2…%-.*“Cе!,ме…2=ль…%е ,““лед%"=…,е "/…3›де……%L *%…"е*ц,, …=…%›,д*%“2, …= %“…%"е %*“,д= =люм,…, " C! м%2%ч…%м 2еCл%%Kме……,*е – 32 – À.Þ. Ðàäçþê, Å.Á. Истягина }*“Cе!,ме…2=ль…%е %C!еделе…,е !е›,м= 2ече…, !=д,=ль…%м д",›е…,, ›,д*%“2, – 48 – Н.Д. Демиденко, Л.В. Кулагина ),“ле……/L ме2%д ,““лед%"=…, “2=ц,%…=!…/. !е›,м%" " 2е.…%л%г,че“*,. Cеч=. – 55 – Редактор И.А. Вейсиг Корректор Е.Г. Иванова Компьютерная верстка Е.В. Гревцовой Подписано в печать 27.01.2014 г. Формат 84x108/16. Усл. печ. л. 10,1. Уч.-изд. л. 9,6. Бумага тип. Печать офсетная. Тираж 1000 экз. Заказ 841. Отпечатано в ПЦ БИК СФУ. 660041, Красноярск, пр. Свободный, 82a. C!, 2014 7 (1)

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Editorial board for Engineering & Technologies: Vladimir Kulagin – Series Editor, Siberian Federal University, Russia Yury Alashkevich – Siberian State Technological University, Russia Sereeter Batmönkh – Institute of Heat Engineering and Industrial Ecology Mongolian Academy of Sciences, Mongolia Yuri Biba – Dresser-Rand Company, USA Carsten Drebenstedt – Technische University Bergakademie Freiberg, Germany Yury Galerkin – Saint Petersburg State Polytechnic University, Russia Gennady Gritsko – Institute of Petroleum Geology and Geophysics Russian Academy of Sciences, Siberian Branch, Russia Georg Guggenberger – Institute of Soil Science Leibniz University Hannover, Germany Lev Endzhievsky – Siberian Federal University, Russia Feng-Chen Li – School of Energy Science and Engineering Harbin Institute of Technology, China Vladimir Makarov – Siberian Federal University, Russia Aleksandr Mineev – Siberian Federal University, Russia Vladimir Moskvichev – Special Designing and Technological Bureau “Nauka” Krasnoyarsk Scientifi c Center of the Russian Academy of Sciences, Siberian Branch, Russia Bernard Nacke – Institute of Electrotechnology Leibniz University of Hannover, Germany Oleksandr Nemchin – CEO of the State Research Institute of Innovative Technologies in Power Energy and Energy Effi ciency of the Fuel and Energy Ministry of Ukraine, Ukraine Valeriy Nikulin – Kamsk Institute of Humanitarian and Engineering Technologies, Russia Oleg Ostrovski – University of New South Wales, Australia Harald Oye – Norwegian University of Science and Technology, Norway Vasili Panteleev – Siberian Federal University, Russia Petr Polyakov – Siberian Federal University, Russia Victor Timofeev – Siberian Federal University, Russia Ibragim Khisameev – Kazan State Technological University, Russia Anatoly Shvidenko – International Institute for Applied Systems Analysis, Austria Galina Chiganova – Siberian Federal University, Russia Свидетельство о регистрации СМИ ПИ № ФС77-28-722 от 29.06.2007 г. Серия включена в «Перечень ведущих рецензируемых научных журналов и изданий, в которых должны быть опубликованы основные научные результаты диссертации на соискание ученой степени доктора и кандидата наук» (редакция 2010 г.) Alex Y. Lipovka and Yuri L. Lipovka Determining Hydraulic Friction Factor for Pipeline Systems – 62 – Nelya S. Chernetskaya, Mikhail Yu. Chernetskiy and Alexander A. Dekterev Numerical Investigation of Influence Thermal Preparation Coal on Nitric Oxides Formation in Combustion Process – 83 – А.П. Скуратов, Ä.È. Ìàõîâ, Å.À. Павлов j%мCью2е!…%е м%дел,!%"=…,е , %C2,м,ƒ=ц, C!%це““= л,2ь “л,2*%" Cл=2,…/ – 96 – Alexander V. Vasilenko and Valentin B. Kashkin Satellite Microvibration and Atmospheric Turbulence Effect on Satellite-to-Ground Optical Communication Link – 103 – Maxim A. Spikin, Vladimir A. Pozdnyakov and Sergey S. Hudyakov Construction of Geographic Information System of Corporate Level in Geological Prospecting – 109 – Â.È. Ãíàòþê, В.И. Пантелеев, А.А. Заименко o%2е…ш,!%"=…,е " ме2%д,*е .ле*2!%C%2!еKле…,ем 2е.…%це…%ƒ= – 116 – 3C!="ле…,

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Journal of Siberian Federal University. Engineering & Technologies 1 (2014 7) 3-12 ~ ~ ~ УДК 504.5: 620.193.16 Hydrodynamic Dispersion of Calcium Aluminosilicate from Technogenic and Nonmetallic Materials Olesya P. Stebelevaa Eleonora A. Petrakovskayab Liudmila V. Kashkinaa *, Tatiana Y. Emelyanovaa and Oleg A. Bayukovb aSiberian Federal University, 79 Svobodny, Krasnoyarsk, 660041, Russia b 50/38 Akademgorodok, Krasnoyarsk, 660036, Russia Received 05.12.2013, received in revised form 18.12.2013, accepted 24.01.2014 Physicochemical properties of two calcium aluminosilicate materials after reducing in the hydrodynamic rotary generator in supercavitation mode were studied. The samples are the crystal ceramic foam based on Kansko-Achinsk lignite-ash and the porous glass material obtained from low-manganese nonmetallic feed. X-ray phase analysis, EPR-method, NPR-method (the Mossbauer Effect) and optical microscopy were used. It was found that the material is changing its stucrure in a hydrodynamic dispersion process caused by high-cavitation. The nature of the changes depends on its initial state. Keywords: hydrodynamic dispersion, cavitation, crystal ceramic foam, porous glass material. Introduction Currently, treatment processes of technogenic materials allowing not only to extract the most valuable components of the waste, but also to obtain new materials with desired properties are developed and implemented. However, these technologies are energy intensive, since more than 50 % of the energy consumed for cominution of the basic substance. Recent studies have shown that energetically low-cost technology of hydrodynamic dispersion (crushing in a liquid medium) can be successfully used for fi ne powdering [1-8]. In [8] it was shown that used rotary hydrodynamic generator of low productivity under specifi ed modes for 1 minute of dispersion at the initial average ash size of 175 microns produces an particle with average size of 25 microns, i.e. ash particles are “grind down” by almost 7 times ( the concentrations less than 3 wt %). If dispersed ash with an average initial size of 25 microns under the same conditions, then the output can be obtained particles having an average particle size of 3,5 – 4 mkm. Thus, in two phases (2 min. dispersion) particle size can be reduced from 175 microns to 4 microns, i.e. by more than 40 times. At higher © Siberian Federal University. All rights reserved * Corresponding author E-mail address: olessteb@rambler.ru # 3 # L.V. Kirensky Institute of Physics SB RAS , ,

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Журнал Сибирского федерального университета. Техника и технологии. Journal of Siberian Federal University. Engineering & Technologies №1 2014

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