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1Academic Journal
Συγγραφείς: V. I. Buzuluk, K. G. Kosushkin, V. I. Mavritsky, А. В. Бузулук, К. Г. Косушкин, В. И. Маврицкий
Πηγή: Civil Aviation High Technologies; Том 22, № 6 (2019); 66-74 ; Научный вестник МГТУ ГА; Том 22, № 6 (2019); 66-74 ; 2542-0119 ; 2079-0619 ; 10.26467/2079-0619-2019-22-6
Θεματικοί όροι: потребная и располагаемая мощность, bearing system, distributed power plant, electric engines, drag power, несущая система, распределенная силовая установка, электрические двигатели
Περιγραφή αρχείου: application/pdf
Relation: https://avia.mstuca.ru/jour/article/view/1618/1182; Zhukovsky, N.E. O poleznom gruze, podnimaemom gelikopterom [On the payload lifted by helicopter]. Vozdukhoplavatel [Balloonist], 1904, no. 2. (in Russian); Hepperle, M. Electric Flight – Potential and Limitations. Energy Efficient Technologies and Concepts of Operation, Lisbon, Portugal, 22–24 October 2012.; Kosushkin, K.G. and Mashkova, E.N. Razrabotka algoritmov i programy opredeleniya parametrov vertoleta, vypolniayushchego zadannyye trebovaniya po gruzopodemnosti i dalnosti perevozok [Algorithms and program development for helicopter fulfilling the specific requirements for load capacity and range]. Materialy XXII nauchno-tekhnicheskoi konferentsii po aerodinamike [Proceedings of the twelfth scientific and technical conference on aerodynamics]. 2011, p. 89. (in Russian); Tishchenko, M.N., Nekrasov, A.V. and Radin, A.S. (1976). Vertolety. Vubor parametrov pri proektirovanii [Helicopters. Design parameters selection]. Moscow: Mashinostroenie, 366 p. (in Russian); Dementeva, L.A., Serezhenkov, A.A., Bochareva, L.I., Lukina, N.F., Kutsevich, K.E. and Petrova, A.P. (2012). Svoystva kompozitcionnykh materialov na osnove kleevykh prepregov [Adhesive prepregs composite materials properties]. Klei. Germetiki. Tekhnologii [Glues. Sealants. Technologies], no. 6, pp. 19–24. (in Russian); Voskoboynik, M.S., Lagosyuk, G.S., Milenkiy, Yu.D., Mirtov, K.D., Chernenko, Zh.S., Osokin, D.P., Skripka, M.L. and Ushakov, V.S. (1972). Konstruktsiya I prochnost samoletov I vertoletov [Aircraft and helicopters constructional strength], in Mirtov K.D. and Chernenko Zh.S. (Ed.). Moscow: Transport, 440 p. (in Russian); Shalashilin, V.I., Gorshkov, A.G. and Troshin, V.N. (2000). Soprotivlenie materialov [Materials resistance]. Moscow: Izdatelstvo MAI, 615 p. (in Russian); Kosushkin, K.G. and Mavritsky, V.I. (2017). Razrabotka kontseptsii mnogovintovoy platformy s raspredelennoy silovoy ustanovkoy [The distributed power plant multiple platform concept development]. Materialy XXVII nauchno-tekhnicheskoikonferentsii po aerodinamike [Proceedings of the twelfth scientific and technical conference on aerodynamics], pp.149–150. (in Russian); Vildgrube, L.S. (1977). Vertolety. Raschet integralnykh aerodinamicheskikh kharakteristik i letno-tekhnicheskikh dannykh [Helicopters. Integral aerodynamic characteristics and flight performance data calculation]. Moscow: Mashinostroenie, 152 p. (in Russian); Yuryev, B.N. (1961). Vozdushnyye vinty. Vertolety: Izbrannyye Trudy [Aircraft propellers. Helicopters. Selected Works]. Moscow: Izdatelstvo Academii Nauk SSSR, vol. 1, 553 p. (in Russian); Mikheyev, V.P. (1998). MIL Moscow Helicopter Plant, 50 Years. Moscow: Lyubimaya Kniga, 272 p.; Frank, A. (2018). Hybrid-electric propulsion systems for aircraft. Siemens AG eAircraft. Electric & hybrid aerospace technology symposium, Cologne, November 8th, 2018.; Anghel, C. (2015) Hybrid electric propulsion technologies 1mw high efficiency generator. Technology Fellow, Oct 18, 2015.; https://avia.mstuca.ru/jour/article/view/1618