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Arutyunov Artem Vladimirovich |
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Academic degree: Ph.D. Date of birth: 1 April 1994 Citizenship: Russian Federation Phone number: +7(903)194-25-30 Email: aarutyunovv@gmail.com, ya.tarutyunov@yandex.ru Address: Russia, Moscow, prospect Mira, bild. 202, ap. 29. Postal code: 129128. |
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Education
06.2010 | Graduated from Physics and Mathematics Lyceum № 1568 of Moscow. |
09.2010 – 06.2015 | Lomonosov Moscow State University Faculty of Computational Mathematics and Cybernetics Department of General Mathematics Completed the Bachelor’s program in the field of study 01.04.02 Applied Mathematics and Computer Science Diploma theme: “Editing surfaces with wavelet functions”. |
09.2015 – 06.2017 | Lomonosov Moscow State University Faculty of Computational Mathematics and Cybernetics Department of Automation for Scientific Research Completed the Master’s program in the field of study 01.04.02 Applied Mathematics and Computer Science. Diploma theme: “Computer modeling of oscillatory processes under partial methane oxidation”. |
10.2017 – 10.2021 | Lomonosov Moscow State University Faculty of Computational Mathematics and Cybernetics Department of Automation for Scientific Research Completed the postgraduate studies in the specialty 05.13.18 “Mathematical modeling, numerical methods and software packages”. Theme of scientific and qualification work: "Computer modeling of gas-chemical processes". |
06.2020 | N.N. Semenov Federal Research Center for Chemical Physics, Russian Academy of Sciences Defense of Ph.D. dissertation "Non-stationary processes of ignition and oxidation of light alkanes" on the specialty 01.04.17 - chemical physics, combustion and explosion, physics of extreme states of matter. |
Employment experience
08.2017 — 02.2020 | Lomonosov MSU, Faculty of Philosophy Specialist in educational and methodical work of the 2nd category |
10.2019 — 10.2021 | Lomonosov MSU, Faculty of CMC Junior Researcher
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05.2022 — present | Shenzhen Moscow-Beijing University (Shenzhen MSU-BIT University), Faculty of Computational Mathematics and Cybernetics Post-doctoral fellow
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Scientific activity
More than 55 scientific publications, including 35 in journals indexed by the RSCI, 18 papers in Scopus and WoS. Presentations at scientific conferences. Participation in the implementation of projects within the framework of the Federal Target Program, the Presidium of the RAS, the Department of Chemistry and Materials Science (“ОХНМ”) RAS, as well as grants from the Russian Foundation for Basic Research (RFBR) and Russian Science Foundation (RSF) on the basis of the FRCCP RAS, the IPCP RAS and the Lomonosov MSU.
Foreign languages
English language ‑ fluency, reading professional literature.
Certificate of completion of the course "English Language for preparing translators in Applied Mathematics and Informatics" at the Faculty of CMC, Lomonosov Moscow State University.
Other
Prizewinner of European and International Youth Go Championships.
Prizewinner at the Lomonosov Schoolchildren Olympiad in Mathematics, 2010
Certificate of completion of the course "Popular science journalism" of the Faculty of Journalism, Lomonosov Moscow State University.
Publications in the popular science magazine "Schrödinger's Cat".
Certificate of completion of the course "Management of the creation of innovative IT-products" from the "ConsultantPlus" company at the Faculty of CMC, Lomonosov MSU.
Certificate of advanced training "Quantum optical communication technologies" (NTI Center for Quantum Communications, National Research Technological University "MISiS").
Publications
1)Web of Science and Scopus
1.Arutyunov A.V., Belyaev A.A., Lidskii B.V., Nikitin A.V., Posvyanskii V.S., Arutyunov V.S. Thermokinetic oscillations in the partial oxidation of methane // Russian Journal of Physical Chemistry B. – 2017. – V. 11, № 3. – P. 403-410. SJR 2017 = 0.309, Q3.DOI:10.7868/S0207401X17060048
2.Arutyunov A.V., Belyaev A.A, Inovenkov I.N., Nefedov V.V. Modeling of termokinetic oscillations at partial oxidation of methane // Journal of Physics: Conference Series. – 2017. – V. 936. – 012012.DOI: 10.1088/1742-6596/936/1/012012
3.Arutyunov A.V., Troshin. K.Ya., Nikitin. A.V., Belyaev A.A., Arutyunov V.S. Computer modeling of self-ignition delays of methane-alkane mixtures // Journal of Physics: Conference Series. – 2018. – V. 1141. – 012153.DOI: 10.1088/1742-6596/1141/1/012153
4.Troshin K.Y., Nikitin A.V., Belyaev A.A., Arutyunov A.V., Kiryushin A.A., Arutyunov V.S. Experimental determination of self-ignition delay of mixtures of methane with light alkanes // Combustion, Explosion and Shock Waves. – 2019 – 55(5) – P. 526-533.DOI: 10.15372/FGV20190502
5.Arutyunov V., Troshin K., Nikitin A., Belyaev A., Arutyunov A., Kiryushin A., Strekova L. Selective oxycracking of associated petroleum gas into energy fuel in the light of new data on self-ignition delays of methane-alkane compositions // Chemical Engineering Journal – 2020 – V. 381 – 122706. Q1.https://doi.org/10.1016/j.cej.2019.122706
6.K. Ya. Troshin, A.A. Belyaev, A. V. Arutyunov, G.A. Shubin, A. V. Nikitin and V. S. Arutyunov. Effect of pressure on the autoignition delay of methane–ethylene–air mixtures // Gorenie I Vzryv, 2021, V. 14, №1, P. 3‑8. (in Russ).DOI: 10.30826/CE21140101
7.Makaryan Iren A., Sedov Igor V., Salgansky Eugene A., Arutyunov Artem V. Arutyunov Vladimir S. A Comprehensive Review on the Prospects of Using Hydrogen–Methane Blends: Challenges and Opportunities // Energies – 2022 – V. 15(6) – 2265.DOI:10.3390/en15062265
8.Arutyunov Vladimir, Savchenko Valery, Sedov Igor, Arutyunov Artem, Nikitin Aleksey. The Fuel of Our Future: Hydrogen or Methane? // Methane – 2022 – 1(2) – 96-106.DOI: 10.3390/methane1020009
9.A.A. Belyaev, A. V. Arutyunov, V. S. Arutyunov. Investigation of the mechanism of the negative temperature dependence of the reaction rate of partial oxidation of methane // Gorenie I Vzryv, 2022, V. 15, №4, P. 19‑29. (in Russ).DOI: 10.30826/CE22150403
10.Vladimir Arutyunov, Andrey Belyaev, Artem Arutyunov, Kirill Troshin and Aleksey Nikitin. Autoignition of methane–hydrogen mixtures below 1000 K // Processes – 2022 – V. 1510(11) – 2177.DOI: 10.3390/pr10112177
11.Smirnov V.N., Shubin G.A., Arutyunov A.V., Vlasov P. A., Zakharov A.A., Arutyunov V.S. Low-Temperature Ignition of Concentrated Syngas Mixtures Behind Reflected Shock Waves // Russian Journal of Physical Chemistry B – 2022 – 16(6) – pp. 1092–1101.DOI: 10.1134/S1990793122060112
12.A. R. Akhunyanov, Artem Arutyunov, Pavel Vlasov, Vladimir S. Arutyunov. Effect of СО2 Additives on the Noncatalytic Conversion of Natural Gas into Syngas and Hydrogen. Kinetics and Catalysis – 2023 – 64(2) – pp. 135 – 153.DOI:10.1134/S0023158423020015
13.Arutyunov A.V., Akhunyanov A.R., Shubin G.A., Belyaev A.A., Vlasov P.A., Smirnov V.N., Troshin K.YA., Arutyunov V.S. Effect of syngas composition on its ignition in the temperature range T ≤1000 K // Gorenie I Vzryv, 2023, V. 16, №2, P. 3‑14. (in Russ).DOI: 10.30826/CE23160201
14.V. Arutyunov, I. Sedov, V. Savchenko, A. Nikitin, A. Arutyunov. Utilization of waste hydrocarbon gases. Eurasian Chem.-Technol. J. – 2023 – 25 – pp.129‒138. DOI:10.18321/ectj1515
15.V.S. Arutyunov, A.V. Arutyunov, A.A. Belyaev, K.Ya. Troshin. Controlled ignition of low-carbon gas-engine fuels based on natural gas and hydrogen: process kinetics. Russian Chemical Reviews – 2023 – 92 (7), RCR5084.DOI: 10.59761/RCR5084, Q1.
16.Akhunyanov, Artur R., Vlasov, Pavel A., Smirnov, Vladimir N., Arutyunov, Аrtem V., Mikhailov, Dmitrii I., Arutyunov, Vladimir S. Comparison of the effect of H2 o and CO2 additives on the conversion of methane into synthesis gas // Gorenie I Vzryv, 2023, V. 16, №3, P. 10‑19. (in Russ).DOI: 10.30826/CE23160302
17.Akhunyanov A.R., Vlasov P.A., Smirnov V.N., Arutyunov A.V., Mikhailov D.I., Arutyunov V.S. Influence of soot particles on the gas-phase methane conversion into synthesis-gas. the role of H2O and CO2 additives. Kinetics and Catalysis – 2023 – 64(6) – pp. 681-696.DOI:10.31857/S0453881123060011
18.A. A. Belyaeva, A. V. Arutyunov, and V. S. Arutyunov. The Stability Analysis of a Chemical Process in a Flow Reactor. Theoretical Foundations of Chemical Engineering, – 2023 – Vol. 57, No. 5 – pp. 861–868. DOI: 10.1134/S0040579523050378
2)Only RSCI
1. A.A. Belyaev, A.V. Arutyunov, V.S. Arutyunov, B.V. Lidskii, A.V. Nikitin and V.S. Posvyanskii. Thermokinetic oscillations at oxidation and combustion of methane // GORENIE I VZRYV (MOSKVA) ‑ Combustion and explosion, 2017, V. 10, № 1, P. 11-15 (in Russ).
2. A.A. Belyaev, A.V. Nikitin, P.D. Toktaliev, P.A. Vlasov, A.V. Ozerskiy, A.S. Dmitruk, A.V. Arutyunov and V.S. Arutyunov. Analysis of literature models of oxidation of methane at moderate temperature // GORENIE I VZRYV (MOSKVA) Combustion and explosion. 2018. V.11, №1. P.19-26 (in Russ).DOI: 10.30826/CE18110102
3. Nikitin A.V., Troshin K.Ya., Belyaev A.A., Arutyunov A.V., Kiryushin A.A., Arutyunov V.S. (2018). Gas motor fuel from associated petroleum gas. Selective oxycracking of heavy APG components. Oil & Gas Chemistry, № 3, P. 23 34 (in Russ).DOI: 10.24411/2310-8266-2018-10301
4. Nikitin A.V., Troshin K. Ya., Belyaev A.A., Arutyunov A.V., Zakharov A.A., Kiryushin A.A., Arutyunov V.S. Selective oxycracking of heavier components of natural and associated petroleum gases as a way for production of gas motor fuel// GORENIE I VZRYV (MOSKVA) Combustion and explosion, 2019, V. 12. № 1, P. 20-28 (in Russ).DOI: 10.30826/CE19120103
5. Arutyunov A.V., Belyaev A.A., Nikitin A.V., Troshin K. Ya., Arutyunov V.S. Modeling of self-ignition delays of methane-alkane-air mixtures // GORENIE I VZRYV (MOSKVA) Combustion and explosion, 2019, V. 12. № 3. P. 14-20 (in Russ). DOI: 10.30826/CE19120302
6. Vladimir S. Arutyunov, Andrey A. Belyaev, Kirill Ya. Troshin, Artem V. Arutyunov, Aleksey A. Tsarenko, Aleksey V. Nikitin. On the use of methane-hydrogen mixtures in internal combustion engines // Oil & Gas Chemistry, 2019, №3-4, P.5-17 (in Russ). DOI: 10.24411/2310-8266-2019-10401.
7. Arutyunov A.V., Belyaev A.A., Inovenkov I.N., Arutyunov V.S. The influence of hydrogen on the burning velocity of methane-air mixtures at elevated temperatures// GORENIE I VZRYV (MOSKVA) Combustion and explosion, 2019, V. 12, №4, P. 4-10 (in Russ).DOI: 10.30826/CE19120401
8. Troshin K. Ya., Belyaev A.A., Arutyunov A.V., Tsarenko A.A., Nikitin A.V., Arutyunov V.S. The influence of pressure on the self-ignition delay of methane-hydrogen-air mixtures // GORENIE I VZRYV (MOSKVA) Combustion and explosion, 2020, V. 13, №1, P. 18-32 (in Russ).DOI: 10.30826/CE20130102
9. K. Ya. Troshin, A.A. Belyaev, A. V. Arutyunov, A. V. Nikitin, and V. S. Arutyunov. Determination of the self-ignition delay of methane–ethylene–airmixtures // GORENIE I VZRYV (MOSKVA) Combustion and explosion, 2020, V. 13, №4, P. 3-8. (in Russ) DOI: 10.30826/CE20130401
10. Arutyunov V.S., Troshin K.Ya., Belyaev A.A., Arutyunov A.V., Nikitin A.V., Strekova L.N. The influence of the composition of gas mixtures on the delay of their self-ignition and the normal speed of the flame. ‘Gorenie i plazmokhimiya’ = Combustion and Plasma Chemistry, № 2, P. 61-80 (in Russ). DOI: 10.18321/cpc349.
3)Scientific monograph
1.Арутюнов В.С., Беляев А.А., Арутюнов А.В., Трошин К.Я., Никитин А.В. Получение, хранение и применение водорода. Новые идеи и перспективные разработки – М.: РАН, 2023. — 384 с. ISBN 978-5-907645-28-8.
4) International and All-Russian scientific events: conferences, congresses, symposia, etc.
1. Arutyunov A., Belyaev A., Inovenkov I., Nefedov V. Modeling of thermokinetic oscillations at partial oxidation of methane // 6th International Conference on Mathematical Modeling in Physical Sciences. Pafos, Cyprus, August 28-31, 2017.
2. A V Arutyunov, K Ya Troshin, A V Nikitin, A A Belyav and V S Arutyunov. Computer modeling of self-ignition delays of methane-alkane mixtures // 7th International Conference on Mathematical Modeling in Physical Sciences. Moscow, Russia, August 27-31, 2018
3. Арутюнов А.В., Никитин А.В., Меркулова М.В., Царенко А.А., Трошин К.Я., Арутюнов В.С. Задержки самовоспламенения метан-воздушных смесей с добавками алканов С2-С5 // XII Международная конференция молодых ученых по нефтехимии, 17–21 сентября 2018 г., г. Звенигород Московской области, Россия. Сборник тезисов, 547-551. ISBN 978-5-9905815-5-5.
4. A.V. Arutyunov, A.A. Belyaev. Modeling of thermokinetic oscillations at partial oxidation of methane // Current problems of chemical physics, 25-29 September 2018, Yerevan. Abstract book, p.37.
5. A.V. Nikitin, А.V.Arutyunov, А.V. Ozerskiy, I.K. Komarov , V.S. Arutyunov. Influence of steam addition on matrix conversion of methane to syngas methane // Current problems of chemical physics, 25-29 September 2018, Yerevan. Abstract book, p. 68.
6. Н.М. Погосян, А.В. Арутюнов, М. Дж. Погосян, С.Д. Арсентьев, В.С. Арутюнов, Л.А. Тавадян. Сопряжённое окисление пропана и этилена как источник пропилена methane // Current problems of chemical physics, 25-29 September 2018, Yerevan. Abstract book, p.72.
7. Арутюнов А.В. Моделирование задержек самовоспламенения метановоздушных смесей с добавками лёгких алканов // XXXVI Всероссийский симпозиум молодых ученых по химической кинетике, 18-21 марта 2019 года. Москва, Химфак МГУ (пансионат “Берёзки”, село Поведники). Сборник трудов, стр. 20.
8. Arutyunov A.V. Computer modeling of self-ignition delays of methane-air mixtures with the addition of light alkanes or hydrogen // International conference on nonlinear solid mechanics ICoNSoM2019 (June 16-19, 2019|Palazzo Argiletum, ROMA, ITALY) Abstract book, p. 272.
9. A.V. Arutyunov, A.A. Belyaev, K.Ya. Troshin, A.V. Nikitin, V.S. Arutyunov. Features of ignition of methane // 12th International Colloquium on Pulsed and Continuous Detonations (ICPCD-2020). October 19–22, 2020 in St. Petersburg, Russia. “Recent progress in detonation research” ed. By S.M. Frolov, p. 3.
DOI: 10.30826/ICPCD12A01.
10. A.V Arutyunov, A.A. Belyaev, I.N. Inovenkov. Impact of hydrogen concentration on safety of methane-hydrogen mixtures // Vth International conference actual scientific & technical issues of chemical safety (ASTICS-2020, October 6–8, 2020 Kazan,). BOOK of ABSTRAСTS, P. 70.
11. Арутюнов В.С. Беляев А.А. Трошин К.Я. Арутюнов А.В. Никитин А.В. Самовоспламенение метан-алкановых и метан-водородных смесей в условиях двс // XV Всероссийский симпозиум по горению и взрыву. Москва, 29.11–04.12.2020. Тезисы XV Всероссийского симпозиума по горению и взрыву, стр. 27.
12. Арутюнов А.В. Влияние концентрации водорода на безопасность использования метан-водородных смесей. Всероссийский симпозиум с международным участием, посвящённый 125-летию со дня рождения академика Н.Н. Семёнова «Физика и химия процессов и материалов: от идей к современной технике и технологии». (Санкт-Петербург, Россия 26–28 апреля, 2021 г. (онлайн)).
13. Арутюнов А.В. Влияние концентрации водорода на самовоспламенение и безопасность использования метан-водород-воздушных смесей. XII Российская конференция «Актуальные проблемы нефтехимии» (с международным участием), посвященная памяти С.Н. Хаджиева (г. Грозный, Россия, 5–9 октября 2021 г.).
14. Ахуньянов А.Р., Власов П.А., Смирнов В.Н., Арутюнов А.В. Влияние добавок Н2О и СО2 на процесс газофазной конверсии метана в синтез-газ с учетом образования частиц сажи. XXXV Симпозиум «Современная химическая физика». Сборник тезисов, стр. 53. (Туапсе, Краснодарский край, 18–28 сентября 2023 г.).
15. V. Arutyunov, I. Sedov, V. Savchenko, A. Nikitin, A. Arutyunov. UTILIZATION OF WASTE HYDROCARBON GASES. 14-й Международный симпозиум «Горение и плазмохимия. Физика и химия углеродных и наноэнергетических материалов». (7-8 ноября 2023 г. Алматы, Казахстан).
16. Арутюнов В.С., Беляев А.А., Трошин К.Я., Арутюнов А.В. Особенности воспламенения метан- и водородсодержащих газов в области Т < 1000 К. XXV Международная конференция по химическим реакторам (ХимРеактор-25). Сборник тезисов, стр. 45‑46. (Тюмень, 8-13 октября 2023).
17. Artem Arutyunov, Andrey Belyaev. Mathematical analysis of the stability of a chemical process in a flow reactor with spatial heterogeneity. 12th International Conference on Mathematical Modeling in Physical Sciences (12th IC-MSQUARE), 28-31 September 2023, Belgrade, Serbia.
Participation in projects
1.Spectral theory of linear and nonlinear equations and boundary control problems for inhomogeneous distributed systems. Department of General Mathematics, CMC, Lomonosov Moscow State University. CITIS number: 01201154965. 1 January 2011 ‑ 31 December 2015. Performer.
2.Federal Target Program (“ФЦП”) "Research and Development in Priority Areas of Development of the Scientific and Technological Complex of Russia for 2014–2020" of the Ministry of Education and Science of the Russian Federation. Project "Development of a technological process for the matrix conversion of natural and associated gases into synthesis gas with a low nitrogen content". State contract No. 14.607.21.0037. Unique identifier ARAED ("ПНИЭР" applied research and experimental development) RFMEF160714X0037 in 2014-2016. Performer.
3.2015-2017 Grant within the framework of the Federal Target Program "Research and Development in Priority Areas of Development of the Scientific and Technological Complex of Russia for 2014 - 2020" of the Ministry of Education and Science of the Russian Federation on the topic: "Manufacturing and installation of a demonstration energy-chemical plant for direct oxidative conversion of natural and associated gases with a capacity for gas not less than 300 m3 / h ". State contract № 14.607.21.0131. Unique identifier ARAED ("ПНИЭР" applied research and experimental development) RFMEF160715X0131. Performer. (34,000,000 RUB).
4.2015-2017 The project "Development and study of a method for increasing the yield of valuable products and the depth of oxidative conversion of fatty and associated petroleum gases by introducing carbon- and hydrogen-containing additives during their processing" within the framework of the Program of the Department of Chemistry and Materials Science of the Russian Academy of Sciences №7 "Creation of scientific bases of environmentally safe and resource-saving chemical and technological processes. Development of processes with the production of experimental batches of substances and materials". Performer. (663,000 RUB).
5.Computer modeling of processes in nanoelectronics, biomedicine, plasma physics and econophysics based on high-performance computing systems. Department of Automation for Scientific Research, CMC, Lomonosov Moscow State University. CITIS number: АААА-А16-116021510096-0 January 1, 2016 - December 31, 2020. Performer. (1,000,000 RUB).
6.2018-2019 RFBR grant № 18-38-00858. Contest "мол_а". Development of a mathematical model for the matrix conversion of methane to synthesis gas using a detailed kinetic scheme for the oxidation of natural gas. Performer. (1,000,000 RUB).
7.ARAED ("ПНИЭР" applied research and experimental development) on the topic: "Creation of a method for producing hydrogen-containing gas based on non-catalytic matrix conversion of natural gas into synthesis gas" Agreement on the provision of a grant in the form of a subsidy No. 05.607.21.0311 dated December 2, 2019. The unique identifier of the project is RFMEFI607719X0311. Performer. (60,000,000 RUB).
8.2019-2021 RFBR grant № 19-31-90022. Contest "Аспиранты". Mathematical modeling of ignition of complex gas mixtures. Contract No. 19-31-90022 \ 19 of 08/22/2019. CITiS number АААА-А19-119120590057-4. Responsible performer. (1,500,000 RUB).
9.2021-2022 RFBR grant № 20-53-05001. Contest "Арм_а". Partial conjugated oxidation of light hydrocarbons. Performer.(4,000,000 RUB).
10.2021-2022 Grant of the President of the Russian Federation for state support of young Russian scientists - candidates of science. Direction of technical science (for 2 years). Development of low-tonnage methanol production technology based on matrix conversion of natural and associated gases. Grant number MK-5425.2021.4. Responsible performer. (1,200,000 RUB).
11. 2022 – 2024 RSF. Competition 2022 “Conducting proactive research by young scientists” of the Presidential program of research projects implemented by leading scientists, including young scientists. Project: “Effect of the hydrogen concentration on the self-ignition of H2+CO mixtures (syngas)”. Agreement № 22-73-00171. Head of project. (3,000,000 RUB).
Education experience
Reading the course of lectures "Kinetic foundations of gas-chemical processes" and "Mathematical modeling of gas-phase processes" in the postgraduate course of the Federal Research Center of Chemical Physics named after N.N. Semenov of the Russian Academy of Sciences. Work in the Admissions Committee of the Faculty of Computational Mathematics and Cybernetics, MSU, work in the Olympiad of schoolchildren "Lomonosov" in mathematics. Supervision of bachelor qualification works of students of the basic departments of the FRCCP RAS, performing scientific research in the laboratory "Oxidation of hydrocarbons" of the FRCCP RAS. Teaching various mathematics courses at Shenzhen MSU-BIT University.
Media mentions:
Participation in the Congress of Young Scientists at the “Sirius” base in Sochi in December 2021.
https://www.chph.ras.ru/index.php/novosti/862-2021-2
Profile on the website of Shenzhen MSU-BIT University.
https://www.smbu.edu.cn/info/4301/54231.htm
