Elaboration of a criterion heat transfer equation of electrostatic fields influence in kerosene medium at free convection and deposit formation
Published: 15.01.2021
Authors: Altunin K.V.
Published in issue: #1(109)/2021
DOI: 10.18698/2308-6033-2021-1-2049
Category: Aviation and Rocket-Space Engineering | Chapter: Thermal, Electric Jet Engines, and Power Plants of Aircrafts
The paper focuses on the problem of deposit formation in engines and power plants operating on liquid hydrocarbon fuels and coolers, and analyzes hydrocarbon deposit formation on heated fuel-delivery metal at increased temperature. First, an experimental setup was created to study the effect of electrostatic fields on the heat transfer intensification in liquid aviation kerosene TS-1 and the process of deposit formation on a heated working plate. Then, the effect of electric wind on thermal processes was visualized using the Tepler optical setup and the influence of electrostatic fields on the processes of heat transfer of deposit formation in the kerosene medium when using coaxial needles as electrodes was studied. Finally, findings of the research were generalized and a new criterion equation with a created dimensionless similarity number of electric convection and deposit formation simplex was introduced.
References
[1] Altunin V.A., Altunin K.V., Aliev I.N., Gortyshov Yu.F., Dresvyannikov F.N., Obukhova L.A., Tarasevich S.E., Yanovskaya M.L. Analysis of investigations of electric fields in different media and conditions. J. of Engineering Physics and Thermophysics, 2012, vol. 85, no. 4, pp. 959–976.
[2] Altunin V.A. Issledovanie vliyaniya elektrostaticheskikh i magnitnykh poley na osobennosti teplootdachi k uglevodorodnym goryuchim i okhladitelyam. Kn. 2 [Investigation of the influence of electrostatic and magnetic fields on the characteristics of heat transfer to hydrocarbon fuels and coolants. Book 2]. Kazan, Kazan University Publ., 2006, 230 p.
[3] Mirolyubov N.N., Kostenko M.V., Levinshteyn M.L., Tikhodeev N.N. Metody rascheta elektrostaticheskikh poley [Methods for calculating electrostatic fields]. Moscow, Vysshaya shkola Publ., 1963, 416 p.
[4] Ostroumov G.A. Inzhenerno-fizicheskiy zhurnal — Journal of Engineering Physics and Thermophysics, 1966, vol. 10, no. 5, pp. 683–695.
[5] Ostroumov G.A. Vzaimodeystvie elektricheskikh i gidrodinamicheskikh poley [Interaction of electric and hydrodynamic fields]. Moscow, Nauka Publ., 1979, 320 p.
[6] Vereschagin I.P., Levitov V.I., Merzabekyan G.Z., Pashin M.M. Osnovy elektrogazodinamiki dispersnykh sred [Fundamentals of electro-gas dynamics of dispersed media]. Moscow, Energiya Publ., 1974, 306 p.
[7] Yantovskiy E.I., Apfelbaum M.S. Magnitnaya gidrodinamika — Magnetohydrodynamics, 1977, no. 4, pp. 73–80.
[8] Bologa M.K., Grosu F.P., Kozhukhar I.A. Elektrokonvektsiya i teploobmen [Electroconvection and heat transfer]. Ostroumov G.A., ed. Kishinev, Shtiintsa Publ., 1977, 320 p.
[9] Yossel Yu.Ya. Elektricheskie polya postoyannykh tokov [Electric fields of direct currents]. Leningrad, Energoatomizdat Publ., 1986, 158 p.
[10] Stishkov Yu.K., Ostapenko A.A. Elektrogidrodinamicheskie techeniya v zhidkikh dielektrikakh [Electrohydrodynamic flows in liquid dielectrics]. Leningrad, Liningrad University Publ., 1989, 176 p.
[11] Savinykh B.V., Gumerov F.M. Svoystva perenosa dielektricheskikh zhidkostey i teplomassoobmen v elektricheskikh polyakh [Transport properties of dielectric fluids and heat and mass transfer in electric fields]. Kazan, FEN Publ., 2002, 384 p.
[12] Grosu F.P., Bologa M.K. Electroisothermal Convection and Its Role in the Process of Heat Exchange. Surface Engineering and Applied Electrochemistry, 2008, vol. 44, no. 3, pp. 187–194.
[13] Saranin V.A. Ustoychivost ravnovesiya, zaryadka, konvektsiya i vzaimodeystvie zhidkikh mass v elektricheskikh poliakh [Equilibrium stability, charging, convection and interaction of liquid masses in electric fields]. Moscow, Izhevsk, Research Center “Regular and Chaotic Dynamics”, 2009, 332 p.
[14] Altunin K.V. Izvestiya vysshikh uchebnykh zavedeniy. Problemy energetiki — Power engineering: research, equipment, technology, 2012, no. 1–2, pp. 168–171.
[15] Ilin V.A. Zhurnal tekhnicheskoy fiziki — Technical Physics, 2013, vol. 83, no. 1, pp. 64–73.
[16] Ilin V.A., Mordvinov A.N., Petrov D.A. Zhurnal eksperimentalnoy i teoreticheskoy fiziki — Journal of Experimental and Theoretical Physics, 2015, vol. 147, no. 1, pp. 181–188.
[17] Altunin V.A., Altunin K.V., Galimov F.M., Gortyshov Iu.F., Dresvyanni-kov F.N., Yanovskiy L.S. Vestnik Kazanskogo tekhnologicheskogo universiteta (Kazan Technological University Bulletin), 2010, no. 5, pp. 96–102.
[18] Altunin K.V., Gortyshov Yu.F., Galimov F.M., Drevsvyannikov F.N., Altunin V.A. Energetika Tatarstana — Power industry of Tatarstan, 2010, no. 3, pp. 43–51.
[19] Altunin V.A., Altunin K.V., Gortyshov Yu.F., Dresvyannikov F.N., Obukhova L.N., Platonov E.N., Tarasevich S.E., Yanovskaya M.L. Sposob opredeleniya konfiguratsii rasprostraneniya silovykh liniy elektrostaticheskikh poley v zhidkikh uglevodorodnykh sredakh [Method for determining the configuration of the propagation of lines of force of electrostatic fields in liquid hydrocarbon media]. Patent RF no. 2504843, 2014, bul. no. 2, 14 p.
[20] Altunin V.A. Forsunka [The atomizing nozzle]. Patent RF no. 2155910, 2004, bul. no. 25, 12 p.
[21] Altunin V.A., Altunin K.V., Galimov F.M., Gortyshov Yu.F., Yanovskiy L.S. Golovka koltsevoy kamery sgoraniya gazoturbinnogo dvigatelia [The head of the annular combustion chamber of a gas turbine engine]. Patent RF no. 2452896, 2012, bul. no. 16, 20 p.
[22] 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.
[23] Altunin K.V., Novikov S.N., Platonov E.N., Shigapov R.R., Yanovskaya M.L. Vliyanie teplovykh protsessov v uglevodorodnykh goryuchikh i okhladitelyakh na sovershenstvovanie konstruktivnykh skhem forsunok i kanalov dvigateley i energoustanovok letatelnykh apparatov [Influence of thermal processes in hydrocarbon fuels and coolers on the improvement of design schemes of nozzles and channels of engines and power plants of aircraft]. Tr. 51-kh chteniy, posvyashchennykh razrabotke nauchnogo naslediya i razvitiyu idey K.E. Tsiolkovskogo. Sektsiya 2: «Problemy raketnoy i kosmicheskoy tekhniki». (Kaluga, 20–22 sentyabria 2016 g.) [Proceedings of 51 readings devoted to the development of the scientific heritage and the development of the ideas of K.E. Tsiolkovsky. Section 2: “Problems of rocket and space technology”. (Kaluga, September 20–22, 2016)]. RAS, Tsiolkovsky Russian Academy of Cosmonautics, Kazan, Kazan University Publ., 2017, pp. 153–168.
[24] Altunin V.A., Altunin K.V., Platonov E.N., Novikov S.N., Minnakhmetov L.I., Yanovskaya M.L. Razrabotka novykh konstruktivnykh skhem forsunok dvigateley aviatsionnykh i aerokosmicheskikh letatelnykh apparatov [Development of new design schemes of nozzles for aircraft and aerospace aircraft engines]. Sb. tez. dokl. 41kh Akademicheskikh chteniy po kosmonavtike, posvyashchennykh pamyati akademika S.P. Koroleva i drugikh vydayushchikhsia otechestvennykh uchenykh — pionerov osvoeniya kosmicheskogo prostranstva. (24–27 yanvyarya 2017 g., MGTU im. N.E. Baumana, Moskva) [Collected abstracts and reports of the 41st Academic Readings on Astronautics devoted to the memory of Academician S.P. Korolev and other prominent Russian scientists - pioneers of space exploration. (January 24–27, 2017, Bauman Moscow State Technical University, Moscow)]. RAS, ROSCOSMOS, Tsiolkovsky Russian Academy of Cosmonautics, Moscow, BMSTU Publ., 2017, p. 63.
[25] Altunin V.A., Altunin K.V., Aliev I.N., Obukhova L.A., Platonov E.N., Kokhanova S.Ya., Yanovskaya M.L. Izvestiya vysshikh uchebnykh zavedeniy. Mashinostroenie — BMSTU Journal of Mechanical Engineering, 2017, no. 10 (691), pp. 77–90.
[26] Altunin V.A. Issledovanie osobennostey teplootdachi k uglevodorodnym goryuchim i okhladitelyam v energeticheskikh ustanovkakh mnogorazovogo ispolzovaniya. Kn. 1 [Investigation of the peculiarities of heat transfer to hydrocarbon fuels and refrigerants in reusable power plants. Book 1]. Kazan, Kazan University Publ., 2005, 272 p.
[27] Chertkov Ya.B. Sovremennye i perspektivnye uglevodorodnye reaktivnye i dizelnye topliva [Modern promising hydrocarbon jet and diesel fuels]. Moscow, Khimiya Publ., 1968, 356 p.
[28] Bolshakov G.F. Fiziko-khimicheskie osnovy obrazovaniya osadkov v reaktivnykh toplivakh [Physicochemical foundations of deposit formation in jet fuels]. Leningrad, Khimiya Publ., 1972, 232 p.
[29] Yanovskiy L.S., Ivanov V.F., Galimov F.M., Sapgir G.B. Koksootlozheniya v aviatsionnykh i raketnykh dvigatelyakh [Coke deposition in aircraft and rocket engines]. Kazan, Abak Publ., 1999, 284 p.