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1Academic Journal
Συγγραφείς: M. P. Sukhorukov, Yu. A. Kremzukov, A. G. Yudintsev, V. M. Rulevskiy, М. П. Сухоруков, Ю. А. Кремзуков, А. Г. Юдинцев, В. М. Рулевский
Πηγή: Alternative Energy and Ecology (ISJAEE); № 12 (2024); 158-187 ; Альтернативная энергетика и экология (ISJAEE); № 12 (2024); 158-187 ; 1608-8298
Θεματικοί όροι: водородные топливные элементы, hydrogen, hydrogen safety, hydrogen sensor, charging-discharging device, control system, power conditioning device, discretization, frequency characteristics, pulse converter, small-signal model, boost DC-DC converter, hydrogen fuel cells, водород, водородная безопасность, датчик водорода, зарядно-разрядное устройство, система управления, устройство кондиционирования питания, дискретизация, частотные характеристики, импульсный преобразователь, малосигнальная модель, повышающий DC-DC преобразователь
Περιγραφή αρχείου: application/pdf
Relation: https://www.isjaee.com/jour/article/view/2593/2110; Bockris J. O. M., Nejat Veziroglu T. // International Journal of Hydrogen Energy 1983;8:323.; Veziroglu T. N., Sahin S. 21st CENTURY’S ENERGY: HYDROGEN ENERGY SYSTEM // Alternative Energy and Ecology (ISJAEE). – 2014;(2):12-28. (In Russ.).; Veziroglu T. N., Barbir F. Hydrogen energy system: a permanent solution to the global energy-environmental problems. In: 35th IUPAC congress proceedings, Istanbul, Turkey, 13-15 August 1995.; Veziroglu T. N., Gurkan I, Padki MM. Remediation of greenhouse problem through replacement of fossil fuels by hydrogen // International Journal of Hydrogen Energy. 1989;14(4).; Veziroglu A., Macario R. COUNTRIES TO BENEFIT MOST FROM EARLY TRANSITION TO HYDROGEN FUELED TRANSPORTATION: MERIT FACTOR ANALYSIS // Alternative Energy and Ecology (ISJAEE). 2014;(2):29-76. (In Russ.).; Veziroğlu T. N., Şahın S. 21st Century’s Energy: Hydrogen Energy System // Alternative Energy and Ecology (ISJAEE). – 2019; (4-6):14-27. https://doi.org/10.15518/isjaee.2019.04-06.014-027.; Almogren S., Veziroğlu T.N. SOLARHYDROGEN ENERGY SYSTEM FOR SAUDI ARABIA // Alternative Energy and Ecology (ISJAEE). – 2018; (7-9): 30-42. (In Russ.) https://doi.org/10.15518/isjaee.2018.07-09.030-042.; Foreword of President, International Association for Hydrogen Energy T. Nejat Veziroglu Celebrating 14th Anniversary of International Scientific Journal for Alternative Energy and Ecology // Alternative Energy and Ecology (ISJAEE). – 2014;(14):12-13. (In Russ.); S. Z. Zhiznin, S. Vassilev, A. L. Gusev, Economics of secondary renewable energy sources with hydrogen generation // International Journal of Hydrogen Energy. – Volume 44. – Issue 23, 2019. – Pages 11385-11393. ISSN 0360-3199. https://doi.org/10.1016/j.ijhydene.2019.03.072. (https://www.sciencedirect.com/science/article/pii/S0360319919310286); S. Z. Zhiznin, V. M. Timokhov, A. L. Gusev. Economic aspects of nuclear and hydrogen energy in the world and Russia // International Journal of Hydrogen Energy. – Volume 45. – Issue 56, 2020. – Pages 31353-31366. ISSN 0360-3199. https://doi.org/10.1016/j.ijhydene.2020.08.260. (https://www.sciencedirect.com/science/article/pii/S036031992033319X); N. A. Bulychev, M. A. Kazaryan, A. S. Averyushkin, A. A. Chernov, A. L. Gusev. Hydrogen production by low-temperature plasma decomposition of liquids // International Journal of Hydrogen Energy. – Volume 42. – Issue 33, 2017. – Pages 20934-20938. ISSN 0360-3199. https://doi.org/10.1016/j.ijhydene.2016.09.226. (https://www.sciencedirect.com/science/article/pii/S0360319917325880); Gusev A. L. Main environmental problems of the Nizhny Novgorod region and the transition to a hydrogen economy // Alternative Energy and Ecology (ISJAEE). – 2006. – №. 1. – Рp. 13-24.; Gusev A. L. Hydrogen for Progress. The Second International Conference Alternative sources of energy for big cities. – 2006, p. 22.; Gusev A. L., Dyadyuchenko Yu. P. The use of hydrogen in automobile internal combustion engines in besieged Leningrad // Alternative Energy and Ecology (ISJAEE). Publisher: Scientific and technical center «TATA» (Sarov); ISSN: 1608-8298.; V. A. Goltsov, T. N. Veziroglu, L. F. Goltsova, A. L. Gusev. Current state of hydrogen economy and hydrogen transport: economy, technology, infrastructure // Alternative Energy and Ecology. Special Issue: Collection of theses of the Second International Symposium on Safety and Economy of Hydrogen Transport – IFSSEHT-2003, 2003, pp. 21-22, 172 p.; Goltsov V. A., Veziroglu T. N., Goltsova L. F., Gusev A. L. Up-to-day status of hydrogen economy and hydrogen vehicles: economy, techniques, infrastructure // Alternative Energy and Ecology (ISJAEE). – 2003. – № S2. – P. 18-19.; V. A. Goltsov, T. N. Veziroglu, L. F. Goltsova, and A. L. Gusev. The current state of the hydrogen economy and hydrogen transport: economics, technology, infrastructure // Alternative energy and ecology (ISJAEE). – 2003. – № S1. – Pp. 21-22.; Gusev A. L. Hydrogen for Progress. The Second International Conference Alternative sources of energy for big cities. – 2006. Рp. 22.; I. Dincer, N. Javani, G. K. Karayel. Sustainable city concept based on green hydrogen energy, Sustainable Cities and Society. – 87 (2022) 104154. https://doi.org/10.1016/j.scs.2022.104154.; Zhiznin S. Z., Vassilev S., Gusev A. L. Economics of secondary renewable energy sources with hydrogen generation // International Journal of Hydrogen Energy. – 2019, 44(23), pp. 11385-11393.; Zhiznin S. Z., Timokhov V. M., Gusev A. L. Economics of hydrogen energy of green transition in the world and Russia. Part I // International Journal of Hydrogen Energy. – Volume 48, Issue 57, 5 July 2023. – Pages 21544-21567. https://doi.org/10.1016/j.ijhydene.2023.03.069.; Gusev A. L., Veziroglu T. N. Twelve interviews with the Legendary Patriarch of Hydrogen Energy prof. Dr. T. N. Veziroglu and main conclusions. Interview № 1 // Alternative Energy and Ecology (ISJAEE). – 2021; (25-27):22-29. (In Russ.). https://doi.org/10.15518/isjaee.2021.09.022-029.; Tarasov B. P., Burnasheva V. V., Lototsky M. V., Yartys V. A. METHODS OF HYDROGEN STORAGE AND POSSIBILITIES OF USING METAL HYDRIDES // AEE. – 2005. – No. 12. URL: https://cyberleninka.ru/article/n/metody-hraneniya-vodoroda-i-vozmozhnosti-ispolzovaniya-metallohydridov (date of access: 07/15/2023).; A. L. Gusev. Thermodynamic peculiarities of low-temperature regeneration of cryosorption devices in heat-insulation cavities of hydrogenous cryogenic tanks // International Journal of Hydrogen Energy. – Volume 26. – Issue 8, 2001. – Pages 863-871. ISSN 0360-3199. https://doi.org/10.1016/S0360-3199(01)00024-6. https://www.sciencedirect.com/science/article/pii/S0360319901000246).; Gusev A. L. Features of the processes of storage and transportation of large amounts of hydrogen I. Low-temperature regeneration of built-in cryoadsorption devices of large cryogenic hydrogen reservoirs // Alternative Energy and Ecology (ISJAEE). – 2002. – № 4. – Рp. 56-68.; Yu. S. Nechaev, O. K. Alekseeva, A. L. Gusev, T. N. Veziroglu. Fundamental foundations and prospects for the development of nanocarbon «super» adsorbents for hydrogen storage on board a car. // Alternative energy and ecology (ISJAEE). – No. 7, 2006, pp. 27-28.; Yu. S. Nechaev, G. A. Filippov, A. L. Gusev. On the experimental and theoretical basis of developing a super hydrogen carbonaceous adsorbent for fuelcell-powered vehicles // In: Book of Abstracts of &th Biennial International Workshop «Fullerenes and Atomic Clusters» (IWAFAC’2005), June 27 – July 1, 2005, St. Peterburg, Russia, (2005) 267.; Yu. S. Nechaev, A. L. Gusev, B. K. Gupta, O. N. Srivastava, T. N. Veziroglu. On the experimental and theoretical basis developing a «super» hydrogen adsorbent // In: Transactions of International conference «Solid State Hydrogen Storage – Materials and Applications», January 31 – February 1, 2005, Hyderabad, India (2005).; Yu. S. Nechaev, A. L. Gusev, B. K. Gupta, O. N. Srivastava, T. N. Veziroglu. On using graphite nanofibers for hydrogen on-board storage // In: Transactions of International conference «Solid State Hydrogen Storage – Materials and Applications». January 31 – February 1, 2005, Hyderabad, India (2005).; Nechaev Yu. S., Alekseeva O. K., Gusev A. L., Veziroglu T. N. Fundamentals and prospects for the development of nanocarbon «super» adsorbents for hydrogen storage on board a car // Alternative Energy and Ecology (ISJAEE), 2006; 7: 27-28.; Gusev A. L., Spitsin B. V., Kazaryan M. A. Development of advanced principles of hydrogen storage and rational design of novel materials for hydrogen accumulation // Alternative Energy and Ecology (ISJAEE). – 2007; 4: 202-3.; Cryogenic Tank. Gusev A. L., Kudryavtsev I. I., Kupriyanov V. I., Kryakovkin V. P., Terekhov A. S. – Application. 13.11.91, no. 5009089/25, Publ. BI no. 18, 1997, INN: F17C3/08.; Patent of the Russian Federation № 2082910. Cryogenic Tank and Method for Activation of a Chemical Absorbent before Placing it in the Thermal Insulation Cavity of a Cryogenic Tank. Gusev A. L., Kudryavtsev I. I., Kupriyanov V. I., Kryakovkin V. P., Terekhov A. S. – claimed. – No. 5009266/26, Op. BI No. 18, 1997, INN: F17C3/00, 13/00.; Patent of the Russian Federation № 2052158. Method for the Operation of a Vacuum Cryoadsorption Device in the Thermal Insulation Cavity of a Cryogenic Tank. Gusev A. L., Isaev A. V., Kupriyanov V. I., Makarov A. A., Terekhov A. S. – Application. 13.11.91, No. 5009136/06, Publ. BI №1, 1996, I. C. F04B37/02.; Patent of Russian Federation № 2047813. Cryogenic Tank. Gusev A. L., Kudryavtsev I. I., Kryakovkin V. P., Kupriyanov V. I., Terekhov A. S., Garkusha A. P. – applied for. 10.12.91., № 5015702/26.; RF Patent No. 2022204. Cryogenic tank and method for removing hydrogen from its vacuum cavity. Gusev A. L., Kudryavtsev I. I., Kryakovkin V. P., Kupriyanov V. I., Terekhov A. S. – Appl. 06/24/91., No. 4954398/26, publ. BI No. 20, 1994, MKI F17C3/08.; RF Patent No. 2022202. Cryogenic tank. Gusev A. L., Kudryavtsev I. I., Kupriyanov V. P., Kurtashin V. E. – Appl. 04/24/91., No. 4931238/26, publ. BI No. 20, 1994, MKI F17C3/00, 3/08.; A. L. Gusev. Features of the processes of storage and transportation of large amounts of hydrogen. I. Low-temperature regeneration of built-in cryoadsorption devices of large cryogenic hydrogen tanks // Alternative Energy and Ecology (ISJAEE). – No. 4, 2002.; https://en.wikipedia.org/wiki/Hydrogen_storage; https://cryoteknik.com/en/?gcl; Gusev A. L. Features of storage and transportation of large amounts of hydrogen I. Low-temperature regeneration of built-in cryoadsorption devices of large cryogenic hydrogen reservoirs // AEE. – 2002. – No. 4. URL: https://cyberleninka.ru/article/n/osobennosti-protsessov-hraneniya-i-transportirovki-bolshih-kolichestv-vodoroda-i-nizkotemperaturnaya-regeneratsiya-vstroennyh (date of the application: 27.05.2023).; Gusev A. L., Kazaryan M. A. Hydrogen Storage. Bayer Material Science (BMS) & The International Science and Technology Center (ISTC). Research Conference, Moscow, Russia, 2007; 40-41.; Gusev A. L., Malozemova E. P., Veziroglu T. N., Hampton M. D. LH2 ultra-long storage technology. Collection of abstracts of the IX International Student Scientific Conference «Polar Lights – 2006». Nuclear Future: Security, Economics and Law». St. Petersburg, 2006; 182-184.; Gusev A. L., Kalmanova M. V., Chaban P. A., Hampton M. D. Phenomenological adsorption thermodynamics to substantiate the synthesis of an optimal hydrogen accumulator based on carbon nanotubes. Collection of abstracts of reports of the IX International Student Scientific Conference «Polar Lights – 2006». Nuclear Future: Security, Economics and Law». St. Petersburg, 2006; 172-174.; Nechaev Yu. S., Filippov G. A., Gusev A. L. On the experimental and theoretical basis of developing a super hydrogen carbonaceous adsorbent for fuel-cell-powered vehicles. Book of Abstracts of &th Biennial International Workshop «Fullerenes and Atomic Clusters» (IWAFAC’2005), St. Peterburg, Russia, 2005: p. 267.; Nechaev Yu. S., Gusev A. L., Gupta B. K., Srivastava O. N., Veziroglu T. N. On the experimental and theoretical basis developing a «super» hydrogen adsorbent. Transactions of International conference «Solid State Hydrogen Storage – Materials and Applications», Hyderabad, India, 2005.; A. L. Gusev. Patent RF «Method of operation of cryogenic pipelines and cryogenic pipeline», RU2177100C2, F16L9/18,59/06./1999-07-21 Priority to RU99116137/06A//2001-12-20. Application granted // 2001-12-20. Publication of RU2177100C2.; Patent of the Russian Federation № 2113871. A method for preventing fire in closed containers and pipelines and a cryogenic pipeline. Gusev A. L., Belousov V. M., Kupriyanov V. I., Kudryavtsev I. I., Kryakovkin V. P., Lyashenko L. V., Bocharikova I. V., Rozhkova E. V., Vysotsky A. F., Schwanke D. V. – Appl. 4.01.96., № 96100184/12, publ. in BI No. 18, MKI A62S2/00.3/ 00.; Patent of Russian Federation № 2103598. Cryogenic pipeline. Gusev A. L. – Application. 5.12.95, № 95120543/06, publ. in BI № 3, 1998, ITC F17D5/00,F16L59/06.; Patent of Russian Federation № 2051349. Device for the control of the control gas flow. Gusev A. L., Kudryavtsev I. I., International Patent G01M3/02, BI No 36, 1995.; Patent of Russian Federation № 2027942. A method for maintaining the vacuum in the heat-insulating cavity of pipes of «tube-in-tube» type. Gusev A. L., Kupriyanov V. I. – Appl. 8.07.91, № 5018602/29, Publ. BI № 3, 1995, ITC F16L59/04.; Patent of the Russian Federation No. 2022196. Cryogenic pipeline. Gusev A. L., Teleshevsky V. S. – Appl. 10.10.90., No. 4870140/29, publ. in BI No. 20, 1994, MKI F16L9 / 18.; Gusev A. L. Project proposal № 1580 «Hydrogen detectors» // Alternative Energy and Ecology (ISJAEE). – 2000; 1: 222-6.; Gusev A. L. Final technical report on the ISTC project No. 1580-02. – 2006.; A. L. Gusev. Low-temperature sensors and absorbers of hydrogen // Alternative energy and ecology. – 2003, S1, pp. 110-114.; A. L. Gusev, T. N. Veziroglu, M. D. Hampton. Hight sensitive hydrogen detectors for hydrogen energy // Energy for Future. – 2005. – Т. 27. – Р. 125.; A. L. Gusev, V. M. Belousov, I. V. Bacherikova, L. V. Lyashenko, E. V. Rozhkova. Hydrogen Sensor for Cryogenic vacuum objects / Hydrogen Materials Science and Chemistry of Metal Hydrides. Springer Science & Business Media, 2002/8/31, Issue 71, p. 41.; A. L. Gusev, Yu. A. Trutnev, A. V. Ivkin. ISTC № 580. BRIEF REPORT 2. Project Title DEVELOPMENT AND STUDY OF DETECTORS FOR HYDROGEN DETECTION AND REGISTRATION. Leading Performer. RFNC-VNIIEF.Available from: https://www.researchgate.net/publication/304310225_Alexander_L_Gusev_YuA_Trutnev_AV_Ivkin_ISTC1580_BRIEF_REPORT_2_Project_Title_DEVELOPMENT_AND_STUDY_OF_DETECTORS_FOR_HYDROGEN_DETECTION_AND_REGISTRATION_Leading_Performer_RFNC-VNIIEF [accessed Feb 06 2023].; Patent of Russian Federation № 1647319. Device for controlling the control gas flow. Gusev A. L., Kudryavtsev I. I., G01M3/04, BI No.17, 1991.; A. L. Gusev, V. M. Belousov, I. V. Bacherikova, L. V. Lyashenko, E. V. Rozhkova. Hydrogen Sensor for Cryogenic Vacuum Objects. Hydrogen Materials Science and Chemistry of Metal Hydrides, 01/2002; ISBN: 978-1-4020-0731-6, DOI:10.1007/978-94-010-0558-6_5.; A. L. Gusev, V. M. Belousov, I. V. Bachericova, E. V. Rozhkova. Hydrogen Sensor for Cryogenic vacuum objects. Abstacts book of NATO International Conference Katsiveli, Yalta, Ukraine September 02-08, 1999, p. 370; A. L. Gusev, V. M. Belousov, I. V. Bachericova, E. V. Rozhkova. Hydrogen Sensor for Cryogenic vacuum objects. Book full-text of NATO International Conferenc, 09/1999.; Gusev A. L., Penkov M. M., Naumchik I. V., Vedernikov M. V., Gribakin V. A. Method of measuring hydrogen content in cryogenic vacuum heat-insulation. Ref. No: 2362991, Year: 01/2008.; Gusev A. L. Precision adjustable vacuum leaks of gas and vapour microflows for control over leakage of energy objects (brief review) // Alternative Energy and Ecology (ISJAEE). – 2008. – №. 4. – Рр. 35-54.; A. L. Gusev. Emergency operation modes of superinsulation of hydrogen cryostats // Alternative energy and ecology (ISJAEE), Special issue. – 2003, 49-50 pp., 172 p.; A. L. Gusev. Low-temperature sensors and hydrogen absorbers //Alternative energy and ecology (ISJAEE), Special issue. – 2003, 110-114 pp., 172 p.; Gusev A. L. et al. Sensors of hydrogen and hydrogen-containing molecules // Alternative Energy and Ecology (ISJAEE). – 2005. – № 5. – Рp. 23-31.; A. L. Gusev, E. V. Kudel’kina, P. A. Chaban, A. V. Ivkin, T. N. Veziroglu, M. D. Hampton. Hydrogen sensors for hydrogen transport. The Proceedings for the 30th ISTC Japan Workshop on Advanced Catalysis Technologies in Russia, April 12-19, 2004, Visits to Companies in Japan, Sponsor: Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan-Rissia Business Cooperation Committee; International Science and Technology Center (ISTC). – Рp. 232-233.; M. V. Vedernikov, M. M. Penkov, I. V. Naumchik. Mathematical model of the dynamics of hydrogen interaction with the surface of sensors under conditions of low temperatures and the influence of water vapor. // Alternative energy and ecology (ISJAEE). Special issue «Collection of abstracts of the Second International Symposium «Safety and Economics of Hydrogen Transport» – IFSSEHT-2003, 2003, p. 127.; A. L. Gusev, V. M. Belousov, I. V. Bachericova, E. V. Rozhkova. Hydrogen Sensor for Cryogenic vacuum objects. Abstacts book of NATO International Conference Katsiveli, Yalta, Ukraine September 02-08, 1999, p. 370.; A. L. Gusev, E. V. Kudel’kina, P. A. Chaban, A. V. Ivkin, T. N. Veziroglu, M. D. Hampton. «Edel’weis-001» standardized unit for testing hydrogen transport sensors. The Proceedings for the 30th ISTC Japan Workshop on Advanced Catalysis Technologies in Russia, April 12-19, 2004. Visits to Companies in Japan, Sponsor: Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan-Rissia Business Cooperation Committee; International Science and Technology Center (ISTC). – P. 234-235.; A. L. Gusev, E.V. Kudelkina, P.A. Chaban, A.V. Ivkin, M. D. Hampton, T. N. Veziroglu. Prospects for the use of palladium and metal oxides of the 4th period in hydrogen energy and hydrogen transport. Proceedings of Conference EuroSun 2004 and 14th International ForumSun (14 Internationales Sonnenforum of DGS e. V.) – June 20-23, 2004 (Freiburg, Germany) and Intersolar 2004, June 24-26, 2004 (Freiburg, Germany). Germany, pp. 70-76, 2004.; A. L. Gusev, E. V. Kudelkina, P. A. Chaban, A. V. Ivkin, M. D. Hampton, T. N. Veziroglu. Hydrogen sensors for hydrogen transport. Proceedings of Conference EuroSun 2004 and 14th International ForumSun (14 Internationales Sonnenforum of DGS e. V.) – June 20-23, 2004 (Freiburg, Germany) and Intersolar 2004, June 24-26, 2004 (Freiburg, Germany). Germany, pp. 43-47, 2004.; Kudel’kina E. V., Gusev A. L., T. N. Veziroglu, M. D. Hampton. Electrosorption Phenomena in Layers of Shield-Vacuum Heat Insulation of Hydrogen Reservoirs in Emergency Operating Conditions. EuroSun2004. 14. Intern.Sonnenforum. Proceedings 2. Editors Deutshe Gesellschaft fur Sonnenenergie e.V. – DGS, Munich PSE GmbH – Forschung Entwicklung Marketing. Freiburg. Volume 2. Topic 05. Energy Efficient Buildings, Hydrogen Systems, Heat Pumps, Technical Building Components; ISBN 3-9809656-2-7; pp 2.567-2.586.; A. L. Gusev, V. M. Belousov, I. V. Bacherikova, L.V. Lyashenko, E. V. Rozhkova. Hydrogen Sensor for Cryogenic vacuum objects / Hydrogen Materials Science and Chemistry of Metal Hydrides. – Рp. 41-47, NATO Science Series. Mathematics, Physics, Chemistry. – Vol. 71. Springer, Dordrecht. Editors by M. D. Hampton, D. V. Schur, S. Yu. Zaginaichenko and V. I. Trefilov. https://link.springer.com/chapter/10.1007/978-94-010-0558-6_5.; A. L. Gusev, E. V. Kudelkina, P. A. Chaban, A. V. Ivkin, M. D. Hampton, T. N. Veziroglu. Unified stand «Edelweiss-001» for testing sensors of hydrogen transport. Proceedings of Conference EuroSun 2004 and 14th International ForumSun (14 Internationales Sonnenforum of DGS e. V.) – June 20-23, 2004 (Freiburg, Germany) and Intersolar 2004, June 24-26, 2004 (Freiburg, Germany). Germany, pp. 48-54, 2004.; A. L. Gusev, E. V. Kudelkina, P. A. Chaban, A. V. Ivkin. Hydrogen sensors. Collection of abstracts of the industry seminar «Passive systems and hydrogen safety of nuclear power plants». Obninsk, April 28-29, 2004, p. 15, 2004.; Gusev A. L., Zolotukhin I. V., Kalinin Yu. E., Sitnikov A. V. Sensors of hydrogen and hydrogen-containing molecules // Alternative Energy and Ecology (ISJAEE). – 2005. – No. 5. URL: https://cyberleninka.ru/article/n/datchiki-vodoroda-i-vodorodsoderzhaschih-molekul (date of access: 07/30/2022).; A. L. Gusev, V. M. Belousov, I. V. Bacherikova, L. V. Lyashenko, E. V. Rozhkova. Hydrogen Sensor for Cryogenic vacuum objects / Hydrogen Materials Science and Chemistry of Metal Hydrides. – Рp. 41-47, NATO Science Series. Mathematics, Physics, Chemistry. – Vol. 71. Springer, Dordrecht. Editors by M. D. Hampton, D. V. Schur, S. Yu. Zaginaichenko and V. I. Trefilov. https://link.springer.com/chapter/10.1007/978-94-010-0558-6_5.; Patent RF № 2113871. Methods of preventing fires in closed vessels and pipelines and a cryogenic pipeline. IC 1 A62C2/00,3/00. BI 1 18, 1998. Gusev A. L., Belousov V. M., Kupriyanov V. I. et al., 1998.; Gusev A. L., Belousov V. M., Bacherikova I. V., Lyashenko L. V., Rozhkova E. V. Hydrogen sensor for cryogenic-vacuum objects. Issues of Atomic Science and Technology. Series: Vacuum, Pure Materials, Superconductors. – 1999. – Issue. 1(9), pp. 28-32. Scientific project № 1580 «Hydrogen detectors», A. L. Gusev, 1999. (htpp: www.istc.ru).; Gusev A. L., Belousov V. M., Bacherikova I. V., Lyashenko L. V., Rozhkova E. V. Hydrogen sensor for cryogenic-vacuum objects. Report at the Third International Symposium «Vacuum Technologies and Equipment ». ISVTE-3. Kharkiv-1999, September 22-24, 1999. Abstracts of the IVth International Symposium on Diamond Films and Related Materials – ISDF4 (Kharkov, Ukraine, September 20-22, 1999).; A. L. Gusev. Low-temperature sensors and hydrogen absorbers // Alternative energy and ecology (ISJAEE). Special issue, 2003, 110-114 pp., 172 p.; A. L. Gusev, V. M. Belousov, I. V. Bacherikova, L. V. Lyashenko, E. V. Rozhkova. Hydrogen Sensor for Cryogenic vacuum objects / Hydrogen Materials Science and Chemistry of Metal Hydrides. – Pp. 41-47, NATO Science Series. Mathematics, Physics, Chemistry. – Vol. 71. Springer, Dordrecht. Editors by M. D. Hampton, D. V. Schur, S. Yu. Zaginaichenko and V. I. Trefilov. https://link.springer.com/chapter/10.1007/978-94-010-0558-6_5.; M. M. Penkov, N. V. Dolgorukov, I. V. Naumchik. Variational model of multicomponent adsorption of hydrogen-water mixtures by the surface of sensors // Alternative energy and ecology (ISJAEE). Special issue «Collection of abstracts of the Second International Symposium «Safety and Economics of Hydrogen Transport» – IFSSEHT-2003, 2003, p. 121.; A. L. Gusev. Precision Adjustable Vacuum Leaks of Microflows of Gases and Vapors to Control the Tightness of Energy Facilities (Brief Review) // Alternative energy and ecology (ISJAEE). – No. 1, 2002, p. (In Russian).; A. L. Gusev. Precision adjustable vacuum leaks of gas and vapour microflows for control over leakage of energy objects (brief review) // Alternative Energy and Ecology (ISJAEE). – 2005, 1, pp. 7-26.; A. L. Gusev, E. V. Kudel’kina, P. A. Chaban, A. V. Ivkin, T. N. Veziroglu, M. D. Hampton. «Edel’weis-001» standardized unit for testing hydrogentransport sensors. The Proceedings for the 30th ISTC Japan Workshop on Advanced Catalysis Technologies in Russia, April 12-19, 2004, Visits to Companies in Japan, Sponsor: Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan-Rissia Business Cooperation Committee; International Science and Technology Center (ISTC). – Pp. 234-235.; Gusev A. L. Electrosorption phenomena in layers of shield-vacuum heat insulation of hydrogen reservoirs // Alternative Energy and Ecology (ISJAEE). – № 4. – 2007.; A. L. Gusev. Features of the processes of storage and transportation of large amounts of hydrogen. I. Low-temperature regeneration of built-in cryoadsorption devices of large cryogenic hydrogen tanks // Alternative Energy and Ecology (ISJAEE). – № 4, 2002.; Gusev A. L., Hampton M. D., Zolotuchin I. V., Kalinin J. E., Ponomarenko A. T., Travkin V. S. and Veziroglu T. N., 2001. Superinsulation: New Effects, Structures, Design Principles. Extended Abstracts of the «Eurofillers, 1, pp. 9-12.; Gusev A. L. Anomalies of the residual superinsulation pressure under emergency conditions of cryogenic objects // Alternative Energy and Ecology (ISJAEE). – 2000. – № 1, pp. 55-75.; Gusev A. L., Kupriyanov V. I., Kryakovkin V. P. and Terekhov A. S. 1990. Field tests of a chemical absorber based on palladium manganese dioxide in large-volume cryo-vacuum objects. In Sat. scientific tr. Vses. conferences on launch vehicles and transport and technological equipment (SV and TTO). NII-50. Bolshevo.; A. L. Gusev. Hydrogen in the superinsulation of the large cryogenic objects. DOI:10.13140/RG.2.2.30723.71201; 11/2016, At: Uzbekistan, Tashkent, Conference: International symposium «NEW TENDENCIES OF DEVELOPING FUNDAMENTAL AND APPLIED PHYSICS: PROBLEMS, ACHIEVEMENTS AND PROSPECTIVES» (10-11 November, 2016, Tashkent)., Affiliation: Scientific Technical Centre «TATA». DOI:10.13140/RG.2.2.30723.71201.; Gusev A. L. Writing the monograph «Electrosorption phenomena in the layers of screen-vacuum thermal insulation» // Alternative energy and ecology (ISJAEE). – 2000. – № 1. – Рp. 229-233.; A. L. Gusev. Theoretical foundations of superinsulation: emergency modes of superinsulation of cryostats. I. Effusion-induced hydrogen and heat-conducting instability //Alternative energy and ecology. (ISJAEE). – № 4, 2002.; A. L. Gusev, E. V. Kudelkina, M. D. Hampton, T. N. Veziroglu. Electrosorption phenomena in the layers of screen-vacuum thermal insulation of hydrogen reservoirs under emergency operating conditions. Proceedings of Conference EuroSun 2004 and 14th International ForumSun (14 Internationales Sonnenforum of DGS e. V.) – June 20-23, 2004 (Freiburg, Germany) and Intersolar 2004, June 24-26, 2004 (Freiburg, Germany). Germany, pp. 567-586, 2004.; A. L. Gusev. «Low-temperature regeneration of cryoadsorption devices in thermo-insulated cavities of cryogenic tanks» // Alternative Energy and Ecology (ISJAEE). – № 12, 2004.; Patent of the Russian Federation No. 2052158. The method of operation of a vacuum cryoadsorption device in the heat-insulating cavity of a cryogenic tank. Gusev A. L., Isaev A. V., Kupriyanov V. I., Makarov A. A., Terekhov A. S. – Appl. 11.13.91., No. 5009136/06, publ. BI No. 1, 1996, MKI F04B37/02.; Patent RF 2113871. Methods of preventing fires in closed vessels and pipelines and a cryogenic pipeline. IC 1 A62C2/00,3/00. BI 1 18, 1998. Gusev A. L., Belousov V. M., Kupriyanov V. I. et al., 1998.; Patent RF 2103598. Cryogenic pipeline. IC F17D5/00, F16L59/06. BI 1 3, 1998. Gusev A. L., Kudryavtsev I. I., Turundaev A. R., 1995.; Gusev A. L. Project proposal № 1580 «Hydrogen detectors» // АЭЭ. – 2000. – № 1. URL: https://cyberleninka.ru/article/n/project-proposal-1580-hydrogen-detectors (дата обращения: 30.07.2022).; Gusev A. L., Belousov V. M., Bacherikova I. V., Lyashenko L. V. and Rozhkova E. V. 1999. Hydrogen sensor for cryogenic-vacuum objects. Issues of Atomic Science and Technology. Ser. Vacuum, pure materials, superconductors // Kharkiv. NSC «Kharkov Institute of Physics and Technology», (1), p. 9.; A. L. Gusev, V. M. Belousov, I. V. Bachericova, E. V. Rozhkova. Hydrogen Sensor for Cryogenic vacuum objects. Book full-text of NATO International Conference Katsiveli, Yalta, Ukraine September 02-08, 1999.; Gusev A. L., Belousov V. M. Bacherikova I. V., Lyashenko L. V., Rozhkova E. V. Hydrogen sensor for cryogenic-vacuum objects. Collection of materials of the conference «Hydrogen Materials Science and Chemistry of Metal Hydrides. ICHMS’99», 1999, p. 371.; Gusev A. L., Belousov V. M., Bacherikova I. V., Lyashenko L. V., Rozhkova E. V. Hydrogen sensor for cryogenic-vacuum objects. Issues of Atomic Science and Technology. Series: Vacuum, Pure Materials, Superconductors. 1999. Issue. 1(9), pp. 28-32. Scientific project № 1580 «Hydrogen detectors», A. L. Gusev, 1999. (htpp: www.istc.ru).; Gusev A. L., Belousov V. M., Bacherikova I. V., Lyashenko L. V., Rozhkova E. V. Hydrogen sensor for cryogenic-vacuum objects. Report at the Third International Symposium «Vacuum Technologies and Equipment». ISVTE-3. Kharkiv-1999, September 22-24, 1999. Abstracts of the IV th International Symposium on Diamond Films and Related Materials-ISDF4 (Kharkov, Ukraine, September 20-22, 1999).; Gusev A. L., Belousov V. M., Bacherikova I. V., Lyashenko L. V., Rozhkova E. V. Hydrogen sensor for cryogenic-vacuum objects. Report at the conference «Fullerenes and Atomic Clusters». (Poster) IWFAC’99. 4th Biennial International Workshop in Russia. October 4-8, 1999 Petersburg, Russia.; A. L. Gusev. Proposal for Project No. 1580 «Hydrogen Detectors» // Alternative Energy and Ecology (ISJAEE), Issue 1, pp. 217-221, 2000.; A. L. Gusev. Project Proposal № 1580 «Hydrogen Detectors» // Alternative Energy and Ecology (ISJAEE). – Issue1, pp. 222-226, 2000.; A. L. Gusev. Brief information on the project: «Alternative energy and ecology in ISTC projects» // Alternative Energy and Ecology (ISJAEE). – Issue 1, pp. 227-228, 2000.; A. L. Gusev, E. V. Kudel’kina, P. A. Chaban, A. V. Ivkin, T. N. Veziroglu, M. D. Hampton. «Edel’weis-001» standardized unit for testing hydrogen transport sensors. The Proceedings for the 30th ISTC Japan Workshop on Advanced Catalysis Technologies in Russia, April 12-19, 2004, Visits to Companies in Japan, Sponsor: Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan-Rissia Business Cooperation committee; International Science and Technology Center (ISTC). – Рp. 234-235.; A. L. Gusev, E. V. Kudelkina, P. A. Chaban, A. V. Ivkin, M. D. Hampton, T. N. Veziroglu. Hydrogen sensors for hydrogen transport. Collection of abstracts Conference EuroSun 2004 and 14th International ForumSun (14 Internationales Sonnenforum of DGS e. V.) – June 20-23, 2004 (Freiburg, Germany) and Intersolar 2004, June 24-26, 2004 (Freiburg, Germany). Germany.; A. L. Gusev, E. V. Kudelkina, P. A. Chaban, A. V. Ivkin, M. D. Hampton, T. N. Veziroglu. Unified stand «Edelweiss-001» for testing sensors of hydrogen transport. Collection of abstracts Conference EuroSun 2004 and 14th International ForumSun (14 Internationales Sonnenforum of DGS e. V.) – June 20-23, 2004 (Freiburg, Germany) and Intersolar 2004, June 24-26, 2004 (Freiburg, Germany). Germany.; Garelina S. A., Gusev A. L., Zakharyan R. A., Kazaryan M. A., Feofanov I. N. Evaluation of the perspective of application of the new gas analyzer «Megakon 10k» in emercom of Russia // Alternative energy and ecology (ISJAEE). – 2014. – No. 22. – P. 46.; Patent for invention RUS 2389992 28.01.2009. Method for determining local and integrated leakage of products and device for its implementation. Gusev A. L., Zababurkin D. I., Kondyrina T. N., Nemyshev V. N.; Patent for invention RUS 2390008 06.10.2008 Gusev A. L., Zababurkin D. I., Popkova V. Ya., Dobrovolsky Yu. A. Gas alarm.; Gusev A. L., Zababurkin D. I. Multi-channel leak detectors for monitoring the level of combustible, toxic and explosive gases // International scientific journal Alternative energy and ecology. – 2010. – No. 10. – Pp. 10-15.; Gusev A. L., Zababurkin D.I. Highly sensitive sensors for special applications // Alternative energy and ecology (ISJAEE). – 2010. – No. 10. – Pр. 23-30.; Zababurkin D. I., Gusev A. L., Nemyshev V. I. Hydrogen leak detectors and leak indicators // Alternative Energy and Ecology (ISJAEE). – 2010. – No. 6. – Pр. 33-42.; Patent for invention RUS 2368882 21.04.2008. Explosive hydrogen sensor. Gusev A. L., Gudilin E. A., Dobrovolsky Yu. A., Nemyshev V. I., Gusakov V. I.; Patent for invention RUS 2371708 05.05.2008. Gusev A. L., Gudilin E. A., Dobrovolsky Yu. A., Kondyrina T. N. Explosive hydrogen sensor.; Patent for invention RUS 2371710 21.07.2008. Hydrogen gas analyzer. Gusev A. L., Gudilin E. A., Dobrovolsky Yu. A., Nemyshev V. N., Kondyrina T. N., Zababurkin D. I.; Patent for invention RUS 2375790 21.07.2008. Piezoresonance hydrogen sensor. Gusev A. L., Gudilin E. A., Dobrovolsky Yu. A., Zababurkin D. I.; Gusev A. L., Zababurkin D. I., Nemyshev V. N. Hydrogen meter. Utility model patent RUS 84988 03.03.2009.; Patent for invention RUS 2362991 03.03.2008. Method for measuring hydrogen content in cryogenic vacuum thermal insulation. Penkov M. M., Naumchik I. V., Vedernikov M. V., Gribakin V. A., Gusev A. L.; Galinov I. V., Gladkov V. S., Gusev A. L., Zababurkin D. I. A Method for calibrating hydrogen sensors by the pressure chamber method // Alternative Energy and Ecology (ISJAEE). – 2009. – No. 11. – Pp. 25-29.; I. V. Babkina, K. S. Gabriels, A. L. Gusev, Yu. E. Kalinin, N. A. Kondrat’eva, A. V. Sitnikov, S. B. Kushchev and S. A. Structure, electric and gas sensitive properties of nanocrystalline film composites based onIN-Y-O-C // Alternative Energy and Ecology (ISJAEE). – 2009. – No. 8. – Pp. 58-66.; Gusev A. L., Naumchik I. V., Penkov M. M. Choice of conditions for application of metal oxide detectors of hydrogen in systems of control of the gas medium of cryogenic hydrogen complexes // Proceedings of the St. Petersburg State University of Low Temperature and Food Technologies. – 2009. – No. 1. – Pp. 65-69.; Gusev A. L. Universal scientific research complex «CLEOPATRA» // Alternative Energy and Ecology (ISJAEE). – 2008. – No. 4. – Pp. 114-121.; Gusev A. L., Naumchik I. V., Penkov M. M. Improving the safety of hydrogen systems on the basis of optimal positioning of hydrogen detectors in heat-insulating cavities of tank and pipelines // Alternative Energy and Ecology (ISJAEE). – 2008. – No. 7. – Pp. 20-24.; Gusev A. L., Zolotukhin I. V., Kalinin Yu. E., Sitnikov A. V. Hydrogen and hydrogen-containing molecules sensors // Alternative Energy and Ecology (ISJAEE). – 2005. – No. 5. – Pp. 23-31.; Gusev A. L. Low-temperature sensors and hydrogen subsectors // Alternative Energy and Ecology (ISJAEE). – 2003. – No. S1. – Pp. 110-114.; Shulga Yu. M., Muradyan V. E., Meteleva Yu. V., Novikov G. F., Gusev A. L. Production and studying of palladinised films of manganese and cobalt oxides // Alternative Energy and Ecology (ISJAEE). – 2003. – No. S2. – Pp. 112-113.; Gusev A. L., Zolotukhin I. V., Kalinin Yu. E., Korotkov L. N., Samokhina O. I., Sitnikov A. V., Spiridonov B. A. Effect of hydrogen on the electrical properties of metal oxide films doped with silicon // Alternative Energy and Ecology (ISJAEE). – 2003. – No. S1. – P. 115.; Abalyaeva V. V., Efimov O. N., Gusev A. L. New materials for hydrogen sensors based on electroactive polymers and carbon nanotubes // Alternative Energy and Ecology (ISJAEE). – 2003. – No. S1. – Pp. 116-117.; Abalyaeva V. V., Efimov O. N., Gusev A. L. Hydrogen detection using the pd-polyaniline/polyvinyl alcohol-phosphoric acid/glassic carbon electrochemical system // Alternative Energy and Ecology (ISJAEE). – 2002. – No. 5. – Pр. 12-16.; Gusev A. L., Zolotukhin I. V., Kalinin Yu. E., Korotkov L. N., Samokhina O. I., Sitnikov A. V., Spiridonov B. A. Influence of hydrogen on the electrical properties of metal oxide films doped with silicon // Alternative Energy and Ecology (ISJAEE). – 2002. – No. 6. – Pp. 12-22.; Abalyaeva V. V., Efimov O. N., Gusev A. L. Hydrogen detection using pd-polyaniline/polyvinyl alcohol-phosphoric acid/glassy carbon lectrochemical system // Alternrtive Energy and Ecology (ISJAEE). – 2002. – № 6. – Pp. 23-27.; https://www.researchgate.net/profile/Alexander-Gusev-5.; A. L. Gusev / Project Technical Report of ISTC № 1580-02. Development and study of detectors for hydrogen detection and registration. (From 1 April 2002 to 31 August 2005 for 41 month) Gusev Alexander Leonidovich (Project Manager). February 2006, DOI:10.13140/RG.2.1.1534.4244.; A. L. Gusev, Yu. A. Trutnev, A. V. Ivkin. Development and study of detectors for hydrogen detection and registration. Project ISTC № 1580 report № 13. Russian Federal Nuclear Center – All-Russian Research Institute of Experimental Physics (RFNC-VNIIEF) Project manager: Alexander Leonidovich Gusev, Research Team Leader, RFNC-VNIIEF. Quarter 13. MARCH 1, 2005 – JUNE 30, 2005. DOI:10.13140/RG.2.1.3475.9289.; A. L. Gusev, Yu. A. Trutnev, A. V. Ivkin. Development and study of detectors for hydrogen detection and registration. Russian Federal Nuclear Center – All-Russian Research Institute of Experimental Physics (RFNC-VNIIEF). Project manager: Alexander Leonidovich Gusev, Research Team Leader, RFNC-VNIIEF. Project ISTC № 1580 report № 12. January 1, 2005 – March 31, 2005.DOI:10.13140/RG.2.1.3738.0727.; A. L. Gusev, Yu. A. Trutnev, A. V. Ivkin. ISTC № 1580. Development and study of detectors for hydrogen detection and registration. Russian Federal Nuclear Center – All-Russian Research Institute of Experimental Physics (RFNC-VNIIEF) Project manager: Alexander Leonidovich Gusev, Research Team Leader, RFNC-VNIIEF QUARTER 11. OCTOBER 1, 2004 – DECEMBER 31, 2004. DOI:10.13140/RG.2.1.4262.3604.; A. L. Gusev, Yu. A. Trutnev, A. V. Ivkin. ISTS № 1580. Quarter 10. (01.07.2004 – 30.09.2004). Development of the method of estimation of a hydrogen sensor and research of the sensor being developed Russian Federal Nuclear Center – All-Russian Research Institute of Experimental Physics (RFNC-VNIIEF). Project manager: research group leader, RFNC-VNIIEF: Alexander Leonidovich Gusev, DOI:10.13140/RG.2.1.4590.0405.; A. L. Gusev. ISTC № 1580. Quarter report № 09. DEVELOPMENT AND STUDY OF DETECTORS FOR HYDROGEN DETECTION AND REGISTRATION. Russian Federal Nuclear Center – All-Russian Research Institute of Experimental Physics (RFNC-VNIIEF) Project manager: RFNC-VNIIEF group leader – Alexander Leonidovich Gusev. Quarter 9 April 1, 2004 – June 6, 2004, DOI:10.13140/RG.2.1.2083.2886.; A. L. Gusev, Yu. A. Trutnev, A. V. Ivkin. ISTC № 1580. BRIEF REPORT 2. Project Title DEVELOPMENT AND STUDY OF DETECTORS FOR HYDROGEN DETECTION AND REGISTRATION. Leading Performer. RFNC-VNIIEF. DOI:10.13140/RG.2.1.3557.8487.; A. L. Gusev, A. V. Ivkin. ISTC № 1580. Quarterly report № 07. DEVELOPMENT AND STUDY OF DETECTORS FOR HYDROGEN DETECTION AND REGISTRATION SUMMARY OF ACTIVITIES A. Development of sensor materials A 1. Selection of sensor materials and methods for hydrogen determination at low and normal temperature Duration: Quarters 1-8. DOI:10.13140/RG.2.1.3295.7047.; A. L. Gusev, Yu. A. Trutnev, A. V. Ivkin. ISTC № 1580. QUARTERLY REPORT № 06. DEVELOPMENT AND STUDY OF DETECTORS FOR HYDROGEN DETECTION AND REGISTRATION. Russian Federal Nuclear Centre – All-Russian Experimental Physics Research Institute (RFNC – VNIIEF). DOI:10.13140/RG.2.1.4475.3527.; A. L. Gusev, Yu. A. Trutnev, A. V. Ivkin. ISTC № 1580. Quarterly Report № 05. DEVELOPMENT AND STUDY OF DETECTORS FOR HYDROGEN DETECTION AND REGISTRATION. Russian Federal Nuclear Center – All-Russian Scientific Research Institute of Experimental Physics (RFNC-VNIIEF). DOI:10.13140/RG.2.1.2705.8807.; A. L. Gusev, Yu. A. Trutnev, A. V. Ivkin, V. A. Afanasyev. ISTC № 1580. BRIEF REPORT. Project Title DEVELOPMENT AND STUDY OF DETECTORS FOR HYDROGEN DETECTION AND REGISTRATION. DOI:10.13140/RG.2.1.3620.3120.; A. L. Gusev. QUARTERLY REPORT № 3. DEVELOPMENT AND STUDY OF DETECTORS FOR HYDROGEN. DETECTION AND REGISTRATION. Russian Federal Nuclear Centre – All-Russian Experimental Physics Research Institute (RFNC – VNIIEF). DOI:10.13140/RG.2.2.34262.65602.; A. L. Gusev. QUARTERLY REPORT № 2. DEVELOPMENT AND STUDYING OF SENSORS FOR HYDROGEN DETECTION AND REGISTRATION. Russian Federal Nuclear Centre – All-Russian Research Institute of Experimental Physics (RFNC-VNIIEF). DOI:10.13140/RG.2.1.2899.4168.; Project Manager: Group Leader, RFNC–VNIIEF A. L. Gusev. QUARTERLY REPORT. DEVELOPMENT AND STUDY OF DETECTORS FOR HYDROGEN DETECTION AND REGISTRATION. Russian Federal Nuclear Center – All-Russian Experimental Physics Research Institute (RFNC–VNIIEF). DOI:10.13140/RG.2.1.1326.5523.; The Project Manager of the project No. 1580 A. L. Gusev. THE QUARTER REPORT. Development and study of detectors for hydrogen detection and registration. 0 quarter. 1.12.2000 – 31.03.2002. DOI:10.13140/RG.2.1.3161.5605.; A. L. Gusev, E. V. Kudel’kina, P. A. Chaban, A. V. Ivkin, T. N. Veziroglu, M. D. Hampton. «Edel’weis-001» standardized unit for testing hydrogen transport sensors. The Proceedings for the 30th ISTC Japan Workshop on Advanced Catalysis Technologies in Russia, April 12-19, 2004, Visits to Companies in Japan, Sponsor: Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan-Rissia Business Cooperation Committee // International Science and Technology Center (ISTC). – Pp. 234-235.; A. L. Gusev, E. V. Kudel’kina, P. A. Chaban, A. V. Ivkin, M. D. Hampton, T. N. Veziroglu. Hydrogen sensors for hydrogen transport. Collection of abstracts Conference EuroSun 2004 and 14th International ForumSun (14 Internationales Sonnenforum of DGS e. V.) – June 20-23, 2004 (Freiburg, Germany) and Intersolar 2004, June 24-26, 2004 (Freiburg, Germany). Germany.; A. L. Gusev, E. V. Kudel’kina, P. A. Chaban, A. V. Ivkin, M. D. Hampton, T. N. Veziroglu. Unified stand «Edelweiss-001» for testing sensors of hydrogen transport. Collection of abstracts Conference EuroSun 2004 and 14th International ForumSun (14 Internationales Sonnenforum of DGS e. V.) – June 20-23, 2004 (Freiburg, Germany) and Intersolar 2004, June 24-26, 2004 (Freiburg, Germany). Germany.; T. N. Veziroglu, A. L. Gusev. Preparation of the world application of the developed new technologies and devices to ensure the safety of hydrogen energy // Project for the Nobel Committee on the subject № 12.6 «Hydrogen Energy», 2019.; M. D. Hampton. Site visit report. ISTC Project № 1580. Sarov, Russia, March 15-22, 2004 // Alternative Energy and Ecology (ISJAEE). – 2005. – № 2 (22), pp. 77-81.; A. L. Gusev, E. V. Kudel’kina, P. A. Chaban, A.V. Ivkin, M. D. Hampton, T. N. Veziroglu. Prospects for the use of palladium and metal oxides of the 4th period in hydrogen energy and hydrogen transport. Collection ofabstracts Conference EuroSun 2004 and 14th International ForumSun (14 Internationales Sonnenforum of DGS e. V.) – June 20-23, 2004 (Freiburg, Germany) and Intersolar 2004, June 24-26, 2004 (Freiburg, Germany). Germany.; A. L. Gusev, E. V. Kudel’kina, P. A. Chaban, A. V. Ivkin, T. N. Veziroglu, M. D. Hampton. The outlook for using palladium and 4th period metal oxides in hydrogen energy and transport. The Proceedings for the 30th ISTC Japan Workshop on Advanced Catalysis Technologies in Russia, April 12-19, 2004, Visits to Companies in Japan, Sponsor: Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan-Rissia Business Cooperation Committee; International Science and Technology Center (ISTC). – Рp. 226-229.; U. V. Krasnobaev and I. N Pozharkova. «Definition of target impedance admissible values of independent power supply system» // Vestnik of SibGAU, vol. 16, no. 3, pp. 91-96, Sept., 2007, [Online].; Y. A. Shinyakov, V. D. Semyonov and M. P. Sukhorukov. «Modernization of the weinberg’s converter for the implementation of a charge-discharge device in the power supply system of a spacecraft», 19th International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices (EDM), Erlagol, Russia, Aug., 2018, pp. 533-539.; Y. A. Shinyakov, V. D. Semenov, V. A. Kabirov, D. S. Torgaeva, M. P. Sukhorukov and R. S. Cevastyanov. «Methodology to synthesis of digital regulator for solar battery energy conversion channel in the spacecraft power supply system». International Multi-Conference on Engineering, Computer and Information Sciences (SIBIRCON), Novosibirsk, Russia, Sept, 2017, pp. 346-350.; R. V. Kozlov, V. G. Bukreev, and A. T. Lelekov. «Optimization technique for energy mass characteristics of the EPS of a geostationary spacecraft». Proceedings of TUSUR University, vol. 24, no. 1, pp. 83-901, Jan., 2021.; O. Ellabban, H. AbuRub, and F. Blaabjerg. «Renewable energy resources: current status, future prospects and their enabling technology». Renewable and Sustainable Energy Reviews, vol. 39, pp. 748-764, Nov., 2014.; V. V. Sazonov. «Determining the Parameters of a Mathematical Model of Spacecraft Solar Batteries from Telemetry Data». Moscow University Computational Mathematics and Cybernetics, vol. 45, pp. 120-125, Oct., 2021.; Yu. A. Shinyakov. «Energy analysis of structural diagrams of power systems for automatic space vehicles». Bulletin of the Tomsk Polytechnic University, vol. 309, no. 8, pp. 152-155, Dec., 2006, [Online].; M. Karimi, M. Ali, A. Hassan, M. Sawan, and B. Gosselin. «An Active Dead-Time Control Circuit with Timing Elements for a 45-V Input 1-MHz Half-Bridge Converter». IEEE Transactions on Circuits and Systems I: Regular Papers, pp. 1-12, July, 2021.; C. Greenwood, S. Lenhart, B. Inenaga, C. Jennings A. Mendelsohn, M. Staley and R. Vaughan. «SS/L’s Super power subsystem development and application on the 1300 family of spacecraft». 20th AIAA International Communication Satellite Systems Conference, Montreal, Quebec, Canada, May, 2002, pp. 152-157.; A. Garrigos, J. A. Carrasco, J. M. Blanes and E. Sanchis-Kilders. «A power conditioning unit for high power geo satellites based on the sequential switching shunt series regulator». IEEE MELECON Electrotechnical Conference, Malaga, Spain, May, 2006, pp. 1186-1189.; Y. Tanovitskiy, G. Kobzev and D. Savin. «Minimizing the Duration of the Transient Processes in a Buck Converter with Pulse Width Modulation and Inert Output Filter». Procedia Technology, vol. 18, pp. 6-13, 2014.; Y. V. Krasnobaev, O. V. Nepomnyashchiy, V. I. Ivanchura, I. N. Pozharkova and A. P. Yablonskiy. «Pulsed voltage regulator with digital control for autonomous power supply system». Bulletin of the Tomsk Polytechnic University. Geo Assets Engineering, vol. 329, no. 11, pp. 61-73, 2018.; P. Cheng, M. Vasic, O. Garcia, J. A. Oliver, P. Alou and J. A. Cobos. «Minimum Time Control for Multiphase Buck Converter: Analysis and Application». IEEE Transactions on Power Electronics, vol. 29, no 2, pp. 958-967, Feb., 2014.; M. P. Suhorukov, M. M. Chernaja, A. V. Osipov and Ju. A. Shinjakov. «Prospects in the design of energy-converting equipment for high-voltage power supply systems». XIV International scientific and technical conference Current problems of electronic instrumentation, Novosibirsk, Russia, Oct., 2018, pp. 101-104.; A. V. Osipov, I. S. Shemolin, V. N. Shkolnyi and R. A. Latypov. «Bidirectional booster converter with an active rectifier for charge-discharge of a battery in power systems». Proceedings of TUSUR University, vol. 21, no. 1, pp. 119-126, Jan., 2018.; N. P. Vintonyak, V. D. Semyonov, V. A. Kabirov, S. S. Tyunin and D. B. Borodin. «Implementation of a two-circuit control system of the energy-generating complex in the mode of stabilization of the output voltage by the energy conversion channel of the battery». Proceedings of TUSUR University, vol. 21, no. 4-1, pp. 61-70., Oct., 2018.; M. D. Hampton. Site visit report. ISTC Project № 1580. Sarov, Russia, March 15-22, 2004 // Alternative Energy and Ecology (ISJAEE). – 2005, № 2 (22). – Рp. 77-81.; Gusev A. L., Veziroglu T. N. Twelve interviews with the Legendary Patriarch of Hydrogen Energy prof. Dr. T. N. Veziroglu and main conclusions. Interview № 1 // Alternative Energy and Ecology (ISJAEE). 2021;(25-27):22-29. (In Russ.). https://doi.org/10.15518/isjaee.2021.09.022-029.; Gusev A. L. Chemical cartridges-recombinators of hydrogen // Alternative energy and ecology (ISJAEE). – 2008. – No. 4. – Pp. 122-125.; A. L. Gusev, E. V. Kudel’kina, M. D. Hampton, T. N. Veziroglu. Phenomenological adsorption thermodynamics to substantiate the synthesis of an optimal hydrogen accumulator based on zeolites, carbon nanotubes and nanospheres. Collection of abstracts Conference EuroSun 2004 and 14th International ForumSun (14 Internationales Sonnenforum of DGS e. V.) – June 20-23, 2004 (Freiburg, Germany) and Intersolar 2004, June 24-26, 2004 (Freiburg, Germany). Germany. http://dx.doi.org/10.13140/RG.2.2.18884.73601.; A. L. Gusev, E. V. Kudel’kina, P. A. Chaban, A. V. Ivkin, M. D. Hampton, T. N. Veziroglu. Prospects for the use of palladium and metal oxides of the 4th period in hydrogen energy and hydrogen transport. Collection of abstracts Conference EuroSun 2004 and 14th International ForumSun (14 Internationales Sonnenforum of DGS e. V.) – June 20-23, 2004 (Freiburg, Germany) and Intersolar 2004, June 24-26, 2004 (Freiburg, Germany). http://dx.doi.org/10.13140/RG.2.2.29814.16960.; A. L. Gusev, E. V. Kudel’kina, P. A. Chaban, A. V. Ivkin, T. N. Veziroglu, M. D. Hampton. The outlook for using palladium and 4th period metal oxides in hydrogen energy and transport. The Proceedings for the 30th ISTC Japan Workshop on Advanced Catalysis Technologies in Russia, April 12-19, 2004, Visits to Companies in Japan, Sponsor: Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan-Rissia Business Cooperation Committee; International Science and Technology Center (ISTC). – Pp. 226-229.; Gusev A. L., Veziroglu T. N. «Centenary Memorandum of November 13, 2006 to the Heads of the G8» // Alternative Energy and Ecology (ISJAEE). – 2007. – № 3. – Р. 11.; A. L. Gusev, Fermaltech Montenegro DOO, 2023. Telegram channel: Solar-Hydrogen Energy. https://t.me/+yXP5ZRtcLUZmZTli.; A. L. Gusev. Fermaltech Montenegro DOO, 2023. Telegram channel: Solar Energy. https://t.me/+mSwo3Kn5FNQ1Y2Qy.; A. L. Gusev. Fermaltech Montenegro DOO, 2023. Telegram channel: SPACE. https://t.me/+NdcDyf-WVLRhhZjcy.; S. Z. Zhiznin, N. N. Shvets, V. M. Timokhov, A. L. Gusev. Economics of hydrogen energy of green transition in the world and Russia. Part I // International Journal of Hydrogen Energy, Volume 48, Issue 57, 2023, Pages 21544-21567, ISSN 0360-3199. https://doi.org/10.1016/j.ijhydene.2023.03.069. (https://www.sciencedirect.com/science/article/pii/S0360319923010832).; A. L. Gusev, T. G. Jabbarov, Sh. G. Mamedov, R. Malikov, N. M. Hajibalaev, S. D. Abdullaeva, N. M. Abbasov. Production of hydrogen and carbon in the petrochemical industry by cracking of hydrocarbons in the process of heat utilization in steel production // International Journal of Hydrogen Energy, Volume 48, Issue 40, 2023, Pages 14954-14963. ISSN 0360-3199. https://doi.org/10.1016/j.ijhydene.2022.12.341 . (https://www.sciencedirect.com/science/article/pii/S0360319922062280).; A. L. Gusev. Fermaltech Montenegro DOO, 2023. Telegram channel: HYDROGEN. https://t.me/hydrogentechnologies.; A. L. Gusev. Fermaltech Montenegro DOO, 2023. INTERNATIONAL ASSOCIATION OF ALTERNATIVE ENERGY AND ECOLOGY (IAAEE) was established on January 10, 2000. https://t.me/IAAEE_ALGUSEV.; F. A. Lewis. Hydrogen Economy Forum in Russia. Second International Symposium on Safety and Economy of Hydrogen Transport // Platinum Metals Reviev, 2003, 47, (4).; IFSSEHT-2000 (Hydrogen Transport) – Sarov – 2000 – Proceedings 1 Editors A. L. Gusev and T. Nejat Veziroglu, July 2000. DOI:10.13140/RG.2.2.30137.57442. Edition: Proceedings I, Publisher: Scientific Technical Centre «TATA» (Russia, Sarov). Editor: A. L. Gusev and T. Nejat Veziroglu, ISBN: ISSN 1608-8298.; IFSSEHT-2003 Second International Symposium on Safety and Economy of Hydrogen Transport. (Hydrogen transport – 2003) – Proceedings 1 Editors A. L. Gusev and T. Nejat Veziroglu, January 2003. Edition: Proceedings I, Publisher: Scientific Technical Centre «TATA» (Russia, Sarov). Editor: A. L. Gusev and T. Nejat Veziroglu, ISBN: ISSN 1608-8298. DOI:10.13140/RG.2.2.13360.35843.; https://www.isjaee.com/jour/article/view/2593
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2Academic Journal
Συγγραφείς: Bolyukh, V. F., Schukin, I. S.
Πηγή: Electrical engineering & Electromechanics, Iss 4, Pp 3-11 (2020)
Електротехніка і Електромеханіка; № 4 (2020): Електротехніка і Електромеханіка №4 2020; 3-11
Электротехника и Электромеханика; № 4 (2020); 3-11
Electrical Engineering & Electromechanics; № 4 (2020): Electrical Engineering & Electromechanics №4 2020; 3-11Θεματικοί όροι: linear pulse electrodynamic type converter, mathematical model, high-speed and force operation mode, excitation by a series of pulses, recoil force, efficiency criterion, линейный импульсный преобразователь электродинамического типа, математическая модель, скоростной и силовой режим работы, возбуждение серией импульсов, сила отдачи, критерий эффективности, 01 natural sciences, 7. Clean energy, TK1-9971, 621.313:536.2.24:539.2, 0103 physical sciences, Electrical engineering. Electronics. Nuclear engineering
Περιγραφή αρχείου: application/pdf
Σύνδεσμος πρόσβασης: http://eie.khpi.edu.ua/article/download/2074-272X.2020.4.01/209863
https://doaj.org/article/90644dc286234e3c817fa5b7404b4264
http://eie.khpi.edu.ua/article/view/2074-272X.2020.4.01
http://eie.khpi.edu.ua/article/view/2074-272X.2020.4.01
http://eie.khpi.edu.ua/article/download/2074-272X.2020.4.01/209863
https://doaj.org/article/90644dc286234e3c817fa5b7404b4264 -
3Academic Journal
Συγγραφείς: Kharchenko, Viktor, Kostenko, Ivan, Liubarskyi, Borys, Shaida, Viktor, Kuravskyi, Maksym, Petrenko, Оleksandr
Πηγή: Східно-Європейський журнал передових технологій; Том 3, № 9 (105) (2020): Інформаційно-керуючі системи; 46-54
Восточно-Европейский журнал передовых технологий; Том 3, № 9 (105) (2020): Информационно-управляющие системы; 46-54
Eastern-European Journal of Enterprise Technologies; Том 3, № 9 (105) (2020): Information and controlling system; 46-54Θεματικοί όροι: trolleybus traction electric drive, motor of mixed excitation, pulse converter, imitation modeling, тяговий електропривод тролейбуса, двигун змішаного збудження, імпульсний перетворювач, імітаційне моделювання, 0211 other engineering and technologies, 0202 electrical engineering, electronic engineering, information engineering, тяговый электропривод троллейбуса, двигатель смешанного возбуждения, импульсный преобразователь, имитационное моделирование, UDC 629.429.3:621.313, 02 engineering and technology, 7. Clean energy
Περιγραφή αρχείου: application/pdf
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4Academic Journal
Συγγραφείς: Voekov, V.N., Meshcheryakov, V.N., Krukov, O.V.
Πηγή: Bulletin of the South Ural State University series "Power Engineering". 20:110-119
Θεματικοί όροι: вентильный электропривод, импульсный преобразователь напряжения, гармонический анализ, boost regulator, автономный инвертор напряжения, 0211 other engineering and technologies, 02 engineering and technology, 7. Clean energy, релейный регулятор, vector control system, relay regulator, rectifier drive, harmonic analysis, 0202 electrical engineering, electronic engineering, information engineering, векторная система управления, УДК 621.313, self-commutated voltage inverter
Περιγραφή αρχείου: application/pdf
Σύνδεσμος πρόσβασης: https://vestnik.susu.ru/power/article/download/9927/7832
https://vestnik.susu.ru/power/article/view/9927/7832
https://cyberleninka.ru/article/n/ventilnyy-elektroprivod-dlya-pogruzhnyh-neftyanyh-nasosov-s-impulsnym-povyshayuschim-preobrazovatelem-napryazheniya-v-zvene/pdf
https://vestnik.susu.ru/power/article/download/9927/7832
https://cyberleninka.ru/article/n/ventilnyy-elektroprivod-dlya-pogruzhnyh-neftyanyh-nasosov-s-impulsnym-povyshayuschim-preobrazovatelem-napryazheniya-v-zvene
http://dspace.susu.ru/xmlui/handle/00001.74/45394 -
5
Συγγραφείς: Bystrov, Alexandre, Zverev, Sergey
Θεματικοί όροι: pulse converter, emitter source follower, импульсный преобразователь, общим коллектором, стоком, thermal processes, drain, эмиттерный истоковый повторитель, обратноходовой преобразователь, печатные платы, printed circuit boards, flyback converter, common collector, тепловые процессы
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6Academic Journal
Συγγραφείς: А. М. Михеенко
Πηγή: The Herald of the Siberian State University of Telecommunications and Information Science; № 2 (2011); 11-16 ; Вестник СибГУТИ; № 2 (2011); 11-16 ; 1998-6920
Θεματικοί όροι: физическая модель усилителя, voltage pulse converter, «D» class amplifier, nonlinear distortions, feedback coupling, amplifier physical model, импульсный преобразователь напряжения, усилитель класса «D», нелинейные искажения, обратная связь
Περιγραφή αρχείου: application/pdf
Relation: https://vestnik.sibsutis.ru/jour/article/view/736/683; Я.З.Ципкин, Ю.С.Попков. Теория нелинейных импульсных систем. - М.: «Наука», 1973, 416 с., ил.; С.С.Букреев и др. Источники вторичного электропитания. -М.: Радио и связь, 1983. -280с., ил.; М.А.Сиверс и др. Проектирование и техническая эксплуатация радиопередающих устройств. -М.: Радио и связь, 1989. -336с., ил.; А. А.Соловьёв. Особенности использования связи вперёд в усилительных трактах со сложением мощностей//Тр. 7-й междунар. симп. по электромагнитной совместимости и электромагнитной экологии. Санкт-Петербург, 26 - 29 июня 2007. СПб.: Изд-во СПбГЭТУ «ЛЭТИ», 2007. с. 239-241.; Г.С. Рамм. Электронные усилители. - М.: Связь, 1964, -335с., ил.; https://vestnik.sibsutis.ru/jour/article/view/736
Διαθεσιμότητα: https://vestnik.sibsutis.ru/jour/article/view/736
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7Academic Journal
Συγγραφείς: Vereschago, E.N., Kostyuchenko, V.I.
Πηγή: Elektrotehnìka ta Elektroenergetika, Vol 0, Iss 2, Pp 8-22 (2019)
Електротехніка та електроенергетика; No 2 (2019): Електротехніка та електроенергетика; 8-22
Электротехника и электроэнергетика; No 2 (2019): Электротехника и электроэнергетика; 8-22
Electrical Engineering and Power Engineering; No 2 (2019): Electrical Engineering and Power Engineering; 8-22
Електротехніка та електроенергетика; № 2 (2019): Електротехніка та електроенергетика; 8-22
Электротехника и электроэнергетика; № 2 (2019): Электротехника и электроэнергетика; 8-22
Electrical Engineering and Power Engineering; № 2 (2019): Electrical Engineering and Power Engineering; 8-22Θεματικοί όροι: качество стабилизации, импульсный преобразователь постоянного тока, комбинированное управление, TK4001-4102, pulse converter of a direct current, Applications of electric power, quality of stabilization, combined control, 0202 electrical engineering, electronic engineering, information engineering, якість стабілізації, імпульсний перетворювач постійного струму, комбіноване управління, 02 engineering and technology, 7. Clean energy
Περιγραφή αρχείου: application/pdf
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8Academic Journal
Πηγή: Информационные и математические технологии в науке и управлении.
Θεματικοί όροι: модель, частотно-импульсный преобразователь, широтно-импульсный преобразователь, характеристика
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9Academic Journal
Συγγραφείς: Horodnii, Oleksii M., Denysov, Yu. O., Hordiienko, V. V., Boiko, S. M., Stepenko, S. A.
Πηγή: Electronics and Communications; Том 21, № 5 (2016); 50-56
Электроника и Связь; Том 21, № 5 (2016); 50-56
Електроніка та Зв'язок; Том 21, № 5 (2016); 50-56Θεματικοί όροι: квазирезонансный преобразователь, импульсный преобразователь, транзиторный ключ, интервал коммутации, диапазон регулирования, паразитные колебания, quasi-resonant converter, pulse converter, transistor switch, switching interval, control range, parasitic oscillations, 7. Clean energy, квазірезонансний перетворювач, імпульсний перетворювач, транзисторний ключ, інтервал комутації, діапазон регулювання, паразитні коливання
Περιγραφή αρχείου: application/pdf
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10
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11Academic Journal
Συγγραφείς: Алексеевский, Дмитрий Геннадиевич, Панкова, Ольга Олеговна, Турышев, Константин Олегович
Πηγή: Bulletin of NTU "Kharkiv Polytechnic Institute" Series: Electrical Machines and Electromechanical Energy Conversion; No. 20 (1345) (2019): Bulletin of the NTU "KhPI". Series: Electric machines and electromechanical energy conversion; 53-57 ; Вестник Национального технического университета «ХПИ» .Серия: Электрические машины и электромеханическое преобразование; № 20 (1345) (2019): Вестник НТУ «ХПИ». Серия: Электрические машины и электромеханическое преобразование энергии; 53-57 ; Вісник Національного технічного університету «ХПІ».Серія: Електричні машини та електромеханічне перетворення енергії; № 20 (1345) (2019): Вісник НТУ «ХПІ». Серія: Електричні машини та електромеханічне перетворення енергії; 53-57 ; 2409-9295
Θεματικοί όροι: Импульсный преобразователь постоянного напряжения, математическая модель, режим прерывистого тока, режим непрерывного тока, метод усреднения, Імпульсний перетворювач постійної напруги, математична модель, режим переривчастого струму, режим безперервного струму, метод усереднення, Pulse DC voltage converter, mathematical model, intermittent current mode, continuous current mode, averaging method
Περιγραφή αρχείου: application/pdf
Relation: http://emepe.khpi.edu.ua/article/view/184979/184611; http://emepe.khpi.edu.ua/article/view/184979
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12Book
Συγγραφείς: Казачковський, М. М.
Θεματικοί όροι: перетворювач енергії, преобразователь энергии, широтно-імпульсний перетворювач енергії, широтно-импульсный преобразователь эенргии
Relation: http://ir.nmu.org.ua/handle/123456789/150764; 621.314
Διαθεσιμότητα: http://ir.nmu.org.ua/handle/123456789/150764
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13Academic Journal
Συγγραφείς: А.И. Денисов, А.Л. Бурсала, Е.А. Бурсала, О.Л. Шаповалов, К.В. Башинский, О.І. Денисов, О.Л. Бурсала, О.О. Бурсала, К.В. Башинський, A. Denisov, A. Bursala, E. Bursala, O. Shapovalоv, K. Bashinskiy
Πηγή: Системи озброєння і військова техніка. — 2018. — № 2(54). 7-14 ; Системы вооружения и военная техника. — 2018. — № 2(54). 7-14 ; Systems of Arms and Military Equipment. — 2018. — № 2(54). 7-14 ; 1997-9568
Θεματικοί όροι: Військово-технічні проблеми, УДК 629.374.7, дискретная передаточная функция, оптимальный регулятор, модифицированное Z-преобразование, квазирезонансный импульсный преобразователь, бесколлекторный двигатель постоянного тока, контур скорости, дискретна передатна функція, оптимальний регулятор, модифіковане Z-перетворення, квазірезонансний імпульсний перетворювач, безколекторний двигун постійного струму, контур швидкості, Speed, switch, discrete transfer function, optimal controller, modified Z-conversion, quasi-resonant pulse converter, brushless DC motor, speed loop
Περιγραφή αρχείου: application/pdf
Relation: http://www.hups.mil.gov.ua/periodic-app/article/18797/soivt_2018_2_3.pdf; http://www.hups.mil.gov.ua/periodic-app/article/18797
Διαθεσιμότητα: http://www.hups.mil.gov.ua/periodic-app/article/18797
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14Report
Συγγραφείς: Якель, Дмитрий Андреевич
Συνεισφορές: Однокопылов, Иван Георгиевич
Θεματικοί όροι: электропривод, следящий электропривод, широтно - импульсный преобразователь, электродвигатель постоянного тока, регулируемый электропривод, electric drive, tracking drive, width - pulse converter, dc electric drive, adjustable electric drive, 13.03.02, 681.513.3:629.4.023.17
Περιγραφή αρχείου: application/pdf
Relation: Якель Д. А. Следящий электропривод постоянного тока дверей пассажирского транспорта : бакалаврская работа / Д. А. Якель; Национальный исследовательский Томский политехнический университет (ТПУ), Инженерная школа энергетики (ИШЭ), Отделение электроэнергетики и электротехники (ОЭЭ); науч. рук. И. Г. Однокопылов. — Томск, 2019.; http://earchive.tpu.ru/handle/11683/54491
Διαθεσιμότητα: http://earchive.tpu.ru/handle/11683/54491
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15Conference
Συγγραφείς: Zyuzev, А. M., Kostylev, A. V., Ioffe, I. S., Yunusov, R. M.
Συνεισφορές: Зюзев, А. М., Костылев, А. В.
Θεματικοί όροι: МОДЕЛИРОВАНИЕ ЭЛЕКТРОМЕХАНИЧЕСКИХ ПРОЦЕССОВ, TUR-10, СИСТЕМА УПРАВЛЕНИЯ ДВИГАТЕЛЕМ ПОСТОЯННОГО ТОКА, РЕВЕРСИВНЫЙ ШИРОТНО-ИМПУЛЬСНЫЙ ПРЕОБРАЗОВАТЕЛЬ ДЛЯ ДПТ, МЕХАНИЧЕСКАЯ ЧАСТЬ ЭЛЕКТРОПРИВОДА, ROBOT MANIPULATOR, THE CONTROL SYSTEM OF DC MOTOR, REVERSIBLE PWM CONVERTER FOR DC MOTORS, КИНЕМАТИКА РОБОТА-МАНИПУЛЯТОРА, THE KINEMATICS OF THE ROBOT MANIPULATOR, MODELING OF ELECTROMECHANICAL PROCESSES, THE MECHANICAL PART OF THE ACTUATOR, МНОГОЗВЕННЫЙ РОБОТ-МАНИПУЛЯТОР, ТУР-10
Περιγραφή αρχείου: application/pdf
Σύνδεσμος πρόσβασης: http://elar.urfu.ru/handle/10995/55365
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16Academic Journal
Συγγραφείς: Анищенко, Николай Васильевич, Канунников, Р. В.
Θεματικοί όροι: статорная обмотка, электромагнитное возбуждение, сигнал инжекции, импульсный преобразователь напряжения, магнитный поток
Περιγραφή αρχείου: application/pdf
Relation: Анищенко Н. В. Косвенное определение углового положения ротора синхронной машины в зоне малых скоростей / Н. В. Анищенко, Р. В. Канунников // Вестник Национального технического университета "Харьковский политехнический институт" = Bulletin of National Technical University "Kharkiv Polytechnic Institute" : [cб. науч. тр.]. – Харьков, 2017. – Вып. 27 (1249) : Проблемы автоматизированного электропривода. Теория и практика. Силовая электроника и энергоэффективность = Problems of Automated Electrodrivs. Theory and Practice. Power Electronics and Energy Efficiency : темат. вып. – С. 130-133.; http://repository.kpi.kharkov.ua/handle/KhPI-Press/33684
Διαθεσιμότητα: http://repository.kpi.kharkov.ua/handle/KhPI-Press/33684
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17Academic Journal
Συγγραφείς: В.Г. Башинский, А.И. Денисов, Е.А. Бурсала, В.Г. Башинський, О.І. Денисов, О.О. Бурсала, V. Bashynskyy, A. Denisov, E. Bursala
Πηγή: Наука і техніка Повітряних Сил Збройних Сил України. — 2017. — № 2(27). 52-55 ; Наука и техника Воздушных Сил Вооруженных Сил Украины. — 2017. — № 2(27). 52-55 ; Science and Technology of the Air Force of Ukraine. — 2017. — № 2(27). 52-55 ; 2223-456X
Θεματικοί όροι: Розвиток, бойове застосування та озброєння авіації, УДК 629.374.7, бесколлекторный двигатель постоянного тока, квазирезонансный импульсный преобразователь, переключаемый при нулевом токе, оптимальное быстродействие, дискретная передаточная функция, Z-преобразование, билинейное преобразование, безколекторний двигун постійного струму, квазірезонансний імпульсний перетворювач, що перемикається при нульовому струмі, оптимальна швидкодія, дискретна передавальна функція, Z-перетворення, білінійне перетворення, brushless DC motor, quasi-resonant pulse converter, zero-current switching, optimal speed, discrete transfer function, Z-transform, bilinear transformation
Περιγραφή αρχείου: application/pdf
Relation: http://www.hups.mil.gov.ua/periodic-app/article/17534/nitps_2017_2_12.pdf; http://www.hups.mil.gov.ua/periodic-app/article/17534
Διαθεσιμότητα: http://www.hups.mil.gov.ua/periodic-app/article/17534
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18Academic Journal
Συγγραφείς: Тугай, Д. В.
Πηγή: Lighting Engineering & Power Engineering; No. 2 (2016): №46; 10-26 ; Светотехника и электроэнергетика; № 2 (2016): №46; 10-26 ; Світлотехніка та Електроенергетика ; № 2 (2016): №46; 10-26 ; 2415-3923 ; 2079-424X
Θεματικοί όροι: полупроводниковый преобразователь, Smart Grid, статический синхронный компенсатор, унифицированная система управления энергопотоками, широтно-импульсный преобразователь, накопитель энергии, топливный элемент, напівпровідниковий перетворювач, статичний синхронний компенсатор, уніфікована система управління енергопотоками, широтно-імпульсний перетворювач, накопичувач енергії, паливна комірка
Περιγραφή αρχείου: application/pdf
Relation: https://lepe.kname.edu.ua/index.php/lepe/article/view/353/348; https://lepe.kname.edu.ua/index.php/lepe/article/view/353
Διαθεσιμότητα: https://lepe.kname.edu.ua/index.php/lepe/article/view/353
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19Academic Journal
Θεματικοί όροι: линейный электромеханический преобразователь, импульсный преобразователь, ЛЭП, преобразователь индукционного типа, исполнительный механизм реле, устройство очистки проводов, ударно-механическая очистка
Περιγραφή αρχείου: application/pdf
Relation: Болюх В. Ф. Практическая реализация линейных импульсных электромеханических преобразователей в промышленных устройствах / В. Ф. Болюх, С. В. Олексенко, И. С. Щукин // Вісник Нац. техн. ун-ту "ХПІ" : зб. наук. пр. Темат. вип. : Електричні машини та електромеханічне перетворення енергії. – Харків : НТУ "ХПІ", 2016. – № 11 (1183). – С. 55-63.; http://repository.kpi.kharkov.ua/handle/KhPI-Press/24430
Διαθεσιμότητα: http://repository.kpi.kharkov.ua/handle/KhPI-Press/24430
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20Academic Journal
Συγγραφείς: А.И. Денисов, Е.А. Бурсала, К.В. Башинский, О.І. Денисов, О.О. Бурсала, К.В. Башинський, A.I. Denisov, E.A. Bursala, K.V. Bashinsky
Πηγή: Системи озброєння і військова техніка. — 2016. — № 4(48). 10-15 ; Системы вооружения и военная техника. — 2016. — № 4(48). 10-15 ; Systems of Arms and Military Equipment. — 2016. — № 4(48). 10-15 ; 1997-9568
Θεματικοί όροι: Військово-технічні проблеми, УДК 629.374.7, потери мощности, электромагнитные помехи, квазирезонансный импульсный преобразователь, бесколлекторный двигатель постоянного тока, оптимальное быстродействие, втрати потужності, електромагнітні завади, квазірезонансний імпульсний перетворювач, безколекторний двигун постійного струму, оптимальна швидкодія, losses, electromagnetic interference, quasi-resonant pulse converter, brushless DC motor, optimal speed
Περιγραφή αρχείου: application/pdf
Relation: http://www.hups.mil.gov.ua/periodic-app/article/17316/soivt_2016_4_4.pdf; http://www.hups.mil.gov.ua/periodic-app/article/17316
Διαθεσιμότητα: http://www.hups.mil.gov.ua/periodic-app/article/17316