Main / Chemistry and Chemical Technology / Chemical physics and material science / Умбеткалиев Куаныш Аскарович
Умбеткалиев Куаныш Аскарович
Position Зам.зав.каф. по научно-инновационной работе и межд.связям, Ст.пpеподаватель
Umbetkaliev Kuanysh Askarovich graduated in 2004 from the Faculty of Chemistry of KazNU. al-Farabi. In 2008 he defended his PhD thesis on the topic: "Plasma-chemical gasification of thermal coals." Since 2009, he has been working as a senior lecturer at the Department of Chemical Physics and Materials Science, Faculty of Chemistry and Chemical Technology. Research interests: plasma chemistry, plasma gasification of solid fuels, plasma processing of mineral substances. Has more than 60 scientific publications, 5 innovative patents of the Republic of Kazakhstan, 1 study guide.
First higher education
| Educational institution | Квалификация | Expiration date |
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| КазНУ им. аль-Фараби | Высшее | 2004 |
Academic degree
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Physical Methods of Research |
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Safety of Technics and Technology |
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Safety of Technics and Technology |
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Safety of Technics and Technology |
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Safety of Technics and Technology |
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Safety of Technics and Technology |
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Safety of Technics and Technology |
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Selected Chapters of Crystal Chemistry and Crystallography |
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Physical and Chemical Bases of Reception Carbon Nanomaterials |
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Physical and Chemical Bases of Reception Carbon Nanomaterials |
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Physical and Chemical Bases of Reception Carbon Nanomaterials |
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Physical and Chemical Bases of Reception Carbon Nanomaterials |
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Modern Physical Methods of Analysis of Substance and Materials |
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Modern Physical Methods of Analysis of Substance and Materials |
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Modern Physical Methods of Analysis of Substance and Materials |
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Modern Physical Methods of Analysis of Substance and Materials |
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Modern Physical Methods of Analysis of Substance and Materials |
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Modern Physical Methods of Analysis of Substance and Materials |
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Modern Physical Methods of Analysis of Substance and Materials |
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Modern Physical Methods of Analysis of Substance and Materials |
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Modern Physical Methods of Analysis of Substance and Materials |
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Modern Physical Methods of Analysis of Substance and Materials |
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Methods of Investigation of Materials and Processes |
Лабораторные работы
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Physical Methods of Chemical Researches |
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Physical Methods of Chemical Researches |
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Physical Methods of Chemical Researches |
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Physical Methods of Chemical Researches |
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Physical Methods of Chemical Researches |
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Radio Phase Analysis of Substances and Materials |
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Radio Phase Analysis of Substances and Materials |
Силлабус по дисциплине "Рентгенофазовый анализ веществ и матреиалов"
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Radio Phase Analysis of Substances and Materials |
Темы лабораторнх работ
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Radio Phase Analysis of Substances and Materials |
Темы СРСП
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Radio Phase Analysis of Substances and Materials |
Перечень экзаменационных вопросов
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Chemical Kinetics of Gas-phase and Solid-phase Reaction |
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Chemical Kinetics of Gas-phase and Solid-phase Reaction |
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Chemical Kinetics of Gas-phase and Solid-phase Reaction |
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Chemical Kinetics of Gas-phase and Solid-phase Reaction |
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Chemical Kinetics of Gas-phase and Solid-phase Reaction |
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Methods of Research and Diagnostics of Nanoobjects and Nanosystems |
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Methods of Research and Diagnostics of Nanoobjects and Nanosystems |
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Methods of Teaching Chemical Physics Including Combustion and Explosion |
Семинарские занятия
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Methods of Teaching Chemical Physics Including Combustion and Explosion |
Cиллабус
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Methods of Teaching Chemical Physics Including Combustion and Explosion |
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Methods of Teaching Chemical Physics Including Combustion and Explosion |
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Methods of Teaching Chemical Physics Including Combustion and Explosion |
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Experimental methods for studying nanomaterials and nanostructures |
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Chemistry of Nanomaterials |
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Physical and Chemical Properties of Nanomaterials |
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Physical and Chemical Properties of Nanomaterials |
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Physical and Chemical Properties of Nanomaterials |
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Physical and Chemical Properties of Nanomaterials |
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Physical and Chemical Properties of Nanomaterials |
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Physical and Chemical Properties of Nanomaterials |
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Self-propagating High-Temperature Synthesis of Nanostructure Materials |
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Self-propagating High-Temperature Synthesis of Nanostructure Materials |
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Self-propagating High-Temperature Synthesis of Nanostructure Materials |
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Self-propagating High-Temperature Synthesis of Nanostructure Materials |
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Self-propagating High-Temperature Synthesis of Nanostructure Materials |
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Methods of Reception of Nanomaterials |
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Methods of Reception of Nanomaterials |
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Methods of Reception of Nanomaterials |
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Methods of Reception of Nanomaterials |
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Methods of Reception of Nanomaterials |
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Methods of Reception of Nanomaterials |
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The Factors of Space and Space Technology |
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The Factors of Space and Space Technology |
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The Factors of Space and Space Technology |
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The Factors of Space and Space Technology |
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The Factors of Space and Space Technology |
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The Factors of Space and Space Technology |
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Modern Technologies of Reception Nanoobjects and Nanostructures |
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Modern Technologies of Reception Nanoobjects and Nanostructures |
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Modern Technologies of Reception Nanoobjects and Nanostructures |
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Modern Technologies of Reception Nanoobjects and Nanostructures |
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Modern Technologies of Reception Nanoobjects and Nanostructures |
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Modern Technologies of Reception Nanoobjects and Nanostructures |
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Analysis of the prediction of environmental impacts of industrial activity |
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Physical Basis of Silicon Nanomaterials |
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Methods of Research and Diagnostics of Nanoobjects and Nanosystems |
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Methods of Research and Diagnostics of Nanoobjects and Nanosystems |
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Methods of Research and Diagnostics of Nanoobjects and Nanosystems |
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Methods of Research and Diagnostics of Nanoobjects and Nanosystems |
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Methods of Research and Diagnostics of Nanoobjects and Nanosystems |
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Methods of Research and Diagnostics of Nanoobjects and Nanosystems |
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The Sensitivity of Explosives and the Initial Momentum |
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Current State and Prospects of Development of Nanochemistry |
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Current State and Prospects of Development of Nanochemistry |
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Current State and Prospects of Development of Nanochemistry |
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Current State and Prospects of Development of Nanochemistry |
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Current State and Prospects of Development of Nanochemistry |
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Current State and Prospects of Development of Nanochemistry |
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Electrical Engineering in Chemical Technologie |
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Electrical Engineering in Chemical Technologie |
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Electrical Engineering in Chemical Technologie |
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Electrical Engineering in Chemical Technologie |
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Electrical Engineering in Chemical Technologie |
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Electrical Engineering in Chemical Technologie |
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Electrical Engineering in Chemical Technologie |
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1
Умбеткалиев Куаныш Аскарович
Тулепов М.И., Досжанов О.М.
ХИМИЯЛЫҚ
ТЕХНОЛОГИЯЛAРДAҒЫ
ЭЛЕКТРОТЕХНИКA
Қазақ университеті
2017 - г.
ISBN 978-601-04-2298
175 - стр.
1
Умбеткалиев Куаныш АскаровичМансуров З.А., Мессерле В.Е., Акназаров С.Х.
ТРЕХФАЗНЫЙ УНИВЕРСАЛЬНЫЙ ЭЛЕКТРОМАГНИТНЫЙ
ТЕХНОЛОГИЧЕСКИЙ РЕАКТОР ДЛЯ ПЕРЕРАБОТКИ МИНЕРАЛЬНЫХ
ВЕЩЕСТВ
2013 - г.
8 - стр.
4
2
Умбеткалиев Куаныш АскаровичГоловченко О.Ю., Мессерле В.Е., Акназаров С.Х.
2016 - г.
10 - стр.
14
3
Умбеткалиев Куаныш Аскарович
2019 - г.
3 - стр.
92
4
Умбеткалиев Куаныш Аскарович
2019 - г.
11 - стр.
17
5
Умбеткалиев Куаныш Аскарович
2019 - г.
9 - стр.
17
6
Умбеткалиев Куаныш АскаровичМансуров З.А., Тұрсынбек С..
2020 - г.
6 - стр.
14
7
Умбеткалиев Куаныш Аскарович
Плазмохимиялық реакторда көміртек құрам-ды қалдықтарды газификациялау
2023 - г.
10 - стр.
21
1
Умбеткалиев Куаныш Аскарович
Испытания плазменно-топливных систем на Алматинской ТЭЦ-2
2011 - г.
2 - стр.
Алматы
2
Умбеткалиев Куаныш Аскарович
2011 - г.
7 - стр.
Алматы
3
Умбеткалиев Куаныш Аскарович
2011 - г.
4 - стр.
Алматы
4
Умбеткалиев Куаныш Аскарович
2011 - г.
3 - стр.
г. Иваново
5
Умбеткалиев Куаныш Аскарович
Мансуров З.А., Акназаров С.Х., Мессерле В.Е.
Термодинамические расчеты переработки минерального сырья при его электроплавке в трехфазном электромагнитном реакторе (ЭМР)
2013 - г.
5 - стр.
Алматы
6
Умбеткалиев Куаныш Аскарович
Мессерле В.Е., Акназаров С.Х.
Трехфазный универсальный электромагнитный технологический реактор для переработки минеральных веществ
2013 - г.
8 - стр.
КазНУ им. аль-Фараби
7
Умбеткалиев Куаныш Аскарович
Мансуров З.А., Акназаров С.Х., Головченко О.Ю., Мессерле В.Е.
2015 - г.
4 - стр.
Almaty
8
Умбеткалиев Куаныш Аскарович
Мессерле В.Е.
2015 - г.
4 - стр.
Almaty
9
Умбеткалиев Куаныш Аскарович
Мессерле В.Е.
2015 - г.
4 - стр.
Almaty
10
Умбеткалиев Куаныш Аскарович
Акназаров С.Х., Мессерле В.Е., Головченко О.Ю.
2016 - г.
5 - стр.
КазНУ
11
Умбеткалиев Куаныш Аскарович
Устименко А.Б., Мессерле В.Е.
2015 - г.
3 - стр.
Алматы
12
Умбеткалиев Куаныш Аскарович
Головченко О.Ю., Мессерле В.Е., Акназаров С.Х.
2016 - г.
5 - стр.
КазНУ
13
Умбеткалиев Куаныш Аскарович
Устименко А.Б., Мессерле В.Е.
2018 - г.
4 - стр.
Алматы
14
Умбеткалиев Куаныш Аскарович
магний және алюиминий негізінде резервті ток көзінің вольтампериетрлік қасиетін зерттеу
2012 - г.
1 - стр.
КазНУ им.аль-Фараби
15
Умбеткалиев Куаныш Аскарович
2018 - г.
1 - стр.
16
Умбеткалиев Куаныш Аскарович
2018 - г.
4 - стр.
17
Умбеткалиев Куаныш Аскарович
Устименко А.Б., Мессерле В.Е.
2018 - г.
1 - стр.
Плёс, Россия): сборник трудов/ Иван. гос. хим.-технол. ун-т. - Иваново
18
Умбеткалиев Куаныш Аскарович
Устименко А.Б., Мессерле В.Е.
2017 - г.
4 - стр.
Алматы
Author Documents
6
Citations
18 по 18
documents
h-index
3
Plasma ignition of solid fuels at thermal power plants. Part 2. 3D modeling of the furnace of a pulverized coal boiler
Messerle, V.E., Ustimenko, A.B., Umbetkaliev, K.A.
2022
Thermophysics and Aeromechanics
29, с. 981-992
0
ЦитированийCompositional fibers based on coal tar mesophase pitch obtained by electrospinning method
Imangazy, A., Smagulova, G., Kaidar, B., Mansurov, Z., Kerimkulova, A., Umbetkaliev, K., Zakhidov, A., Vorobyev, P., Jumadilov, T.
2021
Chemistry and Chemical Technology
15, с. 403-407
4
ЦитированийApplication of Organic Fuel Additives to Enhance Coal Combustion Efficiency
Messerle, V.E., Paskalov, G., Umbetkaliyev, K.A., Ustimenko, A.B.
2020
Thermal Engineering
67, с. 115-121
3
ЦитированийCombustion Study of Gas-Generating Compositions with Carbon Powder Additives
Tursynbek, S., Zarko, V.E., Glotov, O.G., Kiskin, A.B., Korchagin, M.A., Mansurov, Z.A., Surodin, G.S., Umbetkaliev, K.A.
2020
Russian Journal of Physical Chemistry B
14, с. 407-412
6
ЦитированийTechnology of Electric Melting of Basalt for Obtaining Mineral Fiber
Luk′yashchenko, V.G., Messerle, V.E., Ustimenko, A.B., Shevchenko, V.N., Aknazarov, S.K., Mansurov, Z.A., Umbetkaliev, K.A.
2019
Journal of Engineering Physics and Thermophysics
92, с. 263-270
2
ЦитированийDouble chamber linear circuit plasmatron
Lukiaschenko, V.G., Messerle, V.E., Ustimenko, A.B., Umbetkaliev, K.A.
2018
Eurasian Journal of Physics and Functional Materials
2, с. 140-150