Engineering Journal: Science and InnovationELECTRONIC SCIENCE AND ENGINEERING PUBLICATION
Certificate of Registration Media number Эл #ФС77-53688 of 17 April 2013. ISSN 2308-6033. DOI 10.18698/2308-6033
  • Русский
  • Английский
Article

Experimental investigation of density and thermal capacity of liquid pure hydrazine with the introduction of pure dry fullerenes

Published: 07.02.2020

Authors: Altunin V.A., Davlatov N.B., Zaripova M.A., Safarov M.M., Aliev I.N., Yanovskaya M.L.

Published in issue: #2(98)/2020

DOI: 10.18698/2308-6033-2020-2-1957

Category: Aviation and Rocket-Space Engineering | Chapter: Thermal, Electric Jet Engines, and Power Plants of Aircrafts

The paper presents the results of experimental investigation concerning the introduction of non-metallic nano-additives — pure dry fullerenes of C60, C70, C84 grades — into liquid pure hydrazine. The study shows the effect of fullerenes on increasing the efficiency of liquid pure hydrazine by changing its density and thermal capacity through the relative coefficients of the system "(hydrazine + fullerenes) / hydrazine" at temperatures T = 293…560 K and pressures P = 0,101…49.01 MPa. The ways of increasing the efficiency of aircraft engines and power plants and aircraft themselves with the use of a new fuel type "hydrazine — fullerenes" have been developed. Findings of the study are new and necessary for calculations on making efficient jet engines and power plants of expendable and nonexpendable aircraft for ground, air, aerospace and space-based dual-use basing.


References
[1] Gaponenko O.V. Inzhenernyy zhurnal: nauka i innovatsii — Engineering Journal: Science and Innovation, 2019, iss. 6. DOI: 10.18698/2308-6033-2019-6-1893
[2] NASA Strategic Technology Investment Plan. NASA, Office of the Chief Technologist, 2017. Available at: https://www.nasa.gov/sites/default/files/atoms/files/2017-8-1_stip_final-508ed.pdf (accessed May 24, 2018).
[3] Kolomentsev A.I., Baykov A.V., Martynenko S.I., Yakutin A.V., Yanovskiy L.S., et al. Izv. vuzov. Aviatsionnaya tekhnika (University Proceedings. Aeronautical engineering), 2010, no. 2, pp. 53–55.
[4] Kovalev V.D., Gimbitskiy V.A., Gimbitskaya L.A., Marchenko E.I. K voprosu uvelicheniya dalnosti i prodolzhitelnosti poleta letatelnogo apparata [On the issue of increasing the range and duration of flight of an aircraft]. Nauka vchera, segodnya, zavtra: sb. statey po materialam 18–19 Mezhdunarodnoy nauchno-prakticheskoy konferentsii. 8 dekabrya 2014 g., Novosibirsk [Science yesterday, today, tomorrow: coll. papers based on proceedings of the 18–19th International Scientific and Practical Conference. December 8, 2014, Novosibirsk]. Novosibirsk, Sibac Publ., 2014. no. 11–12 (17), pp. 30–36.
[5] Fomin V.M., Zvegintsev V.I., Mazhul I.I., Shumskiy V.V. Prikladnaya mekhanika i tekhnicheskaya fizika — Journal of Applied Mechanics and Technical Physics, 2010, vol. 54, no. 6, pp. 21–30.
[6] Abdullin M.R., Davlatov N.B., Shigapov R.R. Analiz i klassifikatsiya putey sovershenstvovaniya zhidkostnykh raketnykh dvigateley odno- i mnogorazovogo ispolzovaniya na uglevodorodnykh i azotosoderzhashchikh goryuchikh i okhladitelyakh [Analysis and classification of ways to improve expendable and nonexpendable liquid rocket engines on hydrocarbon and nitrogen-containing fuels and coolers]. Mater. dokl. mezhdunarod. molodezhnoy nauchnoy konf. “24-e Tupolevskie chteniya”, posvyashchennye 130-letiyu so dnya rozhdeniya aviakonstruktora I.I. Sikorskogo. KNITU–KAI, Kazan, 7–8 noyabria 2019 g. [Proceedings of the International Youth Scientific Conference "24th Tupolev Readings" dedicated to the 130th anniversary of the birth of aircraft designer I.I. Sikorsky. KAI, Kazan, November 7–8, 2019]. Kazan, KAI Publ., 2019, vol. 2, pp. 314–320.
[7] Averkov I.S., Raznoschikov V.V., Yanovskiy L.S. Aviatsionnye dvigateli — Aviation Engines, 2018, no. 1, pp. 73–81.
[8] Averkov I.S., Demskaya I.A., Katkov R.E., Raznoschikov V.V, Samsonov D.A., Tupitsyn N.N., Yanovskiy L.S. Kosmicheskaya tekhnika i tekhnologii — Space Engineering and Technology, 2017, no. 4 (19), pp. 46–51.
[9] Bolshakov G.F. Khimiya i tekhnologiya komponentov zhidkogo raketnogo topliva [Chemistry and technology of liquid propellant components]. Leningrad, Khimiya Publ., 1983, 320 p.
[10] Khavkin A.V., Gulyaeva L.A., Belousov A.I. Mir nefteproduktov. Vestnik neftyanykh kompaniy (The world of petroleum products. Bulletin of oil companies), 2015, no. 4, pp. 13–16.
[11] Dubovkin N.F., Yanovskiy L.S., Shigabiev T.N. Inzhenernye metody opredeleniya fiziko-khimicheskikh i ekspluatatsionnykh svoistv topliv [Engineering methods for determining physicochemical and operational properties of fuels]. Kazan, Master Lain Publ., 2000, 378 p.
[12] Yanovskiy L.S., ed. Energoemkie goryuchie dlya aviatsionnykh i raketnykh dvigateley [Energy-intensive fuels for aircraft and rocket engines]. Moscow, Fizmatlit Publ., 2009, 400 p.
[13] Danilov A.M. Primenenie prisadok v toplivakh [The use of additives in fuels]. St. Petersburg, Khimizdat Publ., 2010, 360 p.
[14] Altunin V.A., Davlatov N.B., Zaripova M.A., Platonov E.N., Yanovskaya M.L. Voenmekh. Vestnik BGTU (BSTU “Voenmeh” Bulletin), 2019, no. 5, pp. 424–429.
[15] Altunin V.A., Davlatov N.B., Zaripova M.A., Safarov M.M., Platonov E.N., Yanovskaya M.L. Methods for increasing the efficiency of thermophysical and thermodynamic properties of liquid hydrocarbon and nitrogen-containing fuels for engines and power plants for space applications. Trudy 53 chteniy, posvyashchennykh razrabotke nauchnogo naslediya i razvitiyu idey K.E. Tsiolkovskogo. Kaluga, 18–19 sentyabrya 2018 g. [Proceedings of 53rd readings on the development of scientific heritage and the development of ideas of K.E. Tsiolkovsky. Kaluga, September 18–19, 2018]. RAS, Russian Cosmonautics Academy named after K.E. Tsiolkovsky. Kazan, Kazan University Publ., 2019, pp. 138–148.
[16] Altunin V.A., Abdullin M.R., Platonov E.N., Davlatov N.B., Zaripova M.A., Safarov M.M., Yanovskaya M.L. Development of methods for increasing the efficiency of thermophysical and thermodynamic properties of liquid hydrocarbon and nitrogen-containing fuels and coolers for engines of hypersonic, aerospace and spacecraf. Mater. dokl. 43-kh Akademicheskikh chteniy po kosmonavtike, posvyashchennykh pamyati akad. S.P. Koroleva i drugikh vydayushchikhsya otechestvennykh uchenykh — pionerov osvoeniya kosmicheskogo prostranstva [Proceedings of 43rd Academic readings on cosmonautics dedicated to the memory of academician S.P. Korolev and other prominent Russian scientists — pioneers of space exploration]. Moscow, BMSTU Publ., 2019, vol. 2, pp. 71–72.
[17] Altunin V.A., Altunin K.V., Aliev I.N., Abdullin M.R., Davlatov N.B., Platonov E.N., Yanovskaya M.L. Teplovye protsessy v tekhnike (Thermal processes in engineering), 2019, vol. 11, no. 10, pp. 453–479.
[18] Altunin V.A., Davlatov N.B., Zaripova M.A., Safarov M.M., Aliev I.N., Yanovskaya M.L. Inzhenernyy zhurnal: nauka i innovatsii — Engineering Journal: Science and Innovation, 2019, iss. 10. http://dx.doi.org/10.18698/2308-6033-2019-10-1922
[19] Altunin V.A., Davlatov N.B., Zaripova M.A., Safarov M.M., Aliev I.N., Yanovskaya M.L. Inzhenernyy zhurnal: nauka i innovatsii — Engineering Journal: Science and Innovation, 2019, iss. 11. DOI: 10.18698/2308-6033-2019-11-1934
[20] Altunin V.A., Davlatov N.B., Zaripova M.A., Aliev I.N., Yanovskaya M.L. Vestnik KGTU im. A.N. Tupoleva (KAI Bulletin), 2019, no. 3, pp. 30–38.
[21] Altunin V.A., Davlatov N.B., Zaripova M.A., Aliev I.N., Yanovskaya M.L. Vestnik KGTU im. A.N. Tupoleva (KAI Bulletin), 2019, no. 3, pp. 39–51.
[22] Sidorov L.N., Yurovskaya M.A., Borschevsky A.Ya., Trushkov I.V., Ioffe I.N., Fullereny [Fullerenes]. Moscow, Ekzamen Publ., 2005, 688 p.
[23] Mekalova N.V. Fullereny v rastvorakh [Fullerenes in solutions]. Ufa, USPTU Publ., 2001, 107 p.
[24] Shpilevskiy E.M. Nauka i innovatsii — The Science and Innovations, 2006, no. 5, pp. 32–38.
[25] Terekhov A.I., Terekhov A.A. Rossiyskiy khimicheskiy zhurnal — Russian Journal of General Chemistry, 2006, vol. 50, no. 1, pp. 114–118.
[26] Vityaz P.A., ed. Fullereny i nanostruktury v kondensirovannykh sredakh. Sbornik nauchnykh statey [Fullerenes and Nanostructures in Condensed Matter. Collected papers]. Minsk, A.V. Luikov Institute of Heat and Mass Transfer of the National Academy of Sciences of Belarus Publ., 2018, 299 p.
[27] Altunin V.A., Altunin K.V., Aliev I.N., Gortyshov U.F., Dresvyannikov F.N., Obukhova L.A., Tarasevich S.E., Yanovskaya M.L. Analysis of investigations of electric fields in different media and conditions. Journal of Engineering Physics and Thermophysics, 2012, vol. 85, no. 4, pp. 959–976.
[28] Aliev I.N., Yurchenko S.O., Nazarova E.V. Inzhenerno-fizicheskiy zhurnal — Journal of Engineering Physics and Thermophysics, 2007, vol. 80, no. 5, pp. 64–69.