METOD OF CALCULATION OF CONTACT GAS-DRIP UTILIZER OF HEAT OF LOW-TEMPERATURE EXHAUST GASES
DOI:
https://doi.org/10.20998/2078-774X.2016.09.19Анотація
abstractПосилання
Galustov, V. S. (1989), Prjamotochnye raspylitel'nye appara-ty v teplojenergetike [Once-throughspraydevicesinpowersystem], Jenergoatomizdat, Moscow, Russia.
Havkin, Ju. I. (1976), Centrobezhnye forsunki [Rotary atomizers], Mashinostroenie, Leningrad, Russia.
Terehov, V. I. and Pahomov, M. A. (2003), "Chislennoe issledovanie gidrodinamiki, teplo- i massoobmenadvuhfaznogogazoparokapel'nogo potoka v trube [Numerical investigation of fluid flow, heat and mass transfergastwo-phaseflowinagasstreamdrops tube]", Prikladnaja mehanika i tehnicheskaja fizika [Journal of AppliedMechanicsandTechnicalPhysics],vol.44, no. 1, pp. 108–122.
Pahomov, M. A. (2009), "Chislennoe issledovanie gidrodinamiki i teplomassoobmena v pristennyh i strujnyhgazokapel'nyhpotokah [Numerical investigation of fluid flow and heat and mass transfer in the near-wall jet and gas-droplet flows]",D.Sc.Thesis,01.04.14 "Thermophysics and theoretical the heating engineer", Tomsk StateUniversityofArchitectureandCivilEngineering, Novosibirsk, Russia.
Mustafin, R. R. (2010), "Matematicheskoe modelirovanie processov teplomassoobmena dvuhfaznyh potokov vdvigateljahletatel'nyh apparatov [Mathematical modeling of heat and mass transfer of two-phase flows inenginesofaircraft]",Ph.D.Thesis,05.07.05 "Heat, electrorocket engines and power plants of aircraft" UfaStateAviationTechnicalUniversity,Ufa,Russia.
Tumashova, A. V. (2011), "Modelirovanie processov teplo- i massoobmena v forsunochnyh orositel'nyh kamerah [Modellingofprocesses of heat and mass transfer in the washer nozzle]", Ph.D. Thesis, , 01.04.14"Thermophysicsandtheoreticaltheheatingengineer" Tomsk State University of Architecture and Civil Engineering,Tomsk,Russia.
Pakhomov, M. A. and Terekhov, V. І. (2013), "Second moment closure modeling of flow, turbulence and heat transferindropletladen mist flow in a vertical pipe with sudden expansion [Second moment closure modelingofflow,turbulenceandheattransfer in droplet-laden mist flow in a vertical pipe with sudden expansion]", Int. J. ofHeatandMassTransfer, no.66,pp. 210–222, ISSN, 0947-7411, doi: 10.1016/j.ijheatmasstransfer.2013.07.013.
Terehov, V. I., Terehov, V. V., Shishkin, N. E. and Bi K. Ch. (2010), "Jeksperimental'noe i chislennoe issle-dovanijanestacionarnogo isparenija kapel' zhidkosti [Experimental and numerical study of non-stationaryevaporationofliquiddroplets]",IFZh [Journal of Engineering Physics and Thermophysics], vol. 83, no. 5, pp. 829–836,ISSN1062-0125.
Bezrodnyj, M. K., Golijad, N. N., Barabash, P. A., Rachinskij, A. Ju. and Golubev, A. B. (2013), "Nekotoryeharakteristikiraspyla centrobezhnyh forsunok kontaktnyh utilizatorov othodjashhih gazov kapel'nogo tipa[Somespraycharacteristicsofcentrifugal atomizers for contact utilizers of the exhayst gases of thedroptype]",PromyshlennajaTeplotehnika[Industrial Heat Engineering], vol. 35, no. 6, pp. 31–38, ISSN 0204-3602.
Bezrodnyj, M. K., Golijad, N. N., Barabash, P. A., Golubev, A. B. and Rachinskij, A. Ju. (2013), "Vlijanie vhodnyhparametrovvody na tonkost' raspyla centrobezhnyh forsunok [Influence of input parameters of water on athinnessofsprayofcentrifugalatomizers]", Energetika: ekonomіka, tehnologії, ekologіja [Powerengineering:economics,technique,ecology], no.2,pp. 23–30, ISSN 1813-5420.
Bezrodnij, M. K., Golіjad, M. N. and Rachins'kij, A. Ju. (2014), "Do viznachennja poverhnі teplomasoobmіnu vkontaktnihteploutilіzatorah krapel'nogo tipu [To determine heat and mass exchange surface in contact utilizers of droptype]",Vostochno-evropejskij zhurnal peredovyh tehnologij [Eastern-European Journal of Enterprise Technologies], no. 1/8(67), pp. 21–26,ISSN1729-3774, doi: 10.15587/1729-4061.2014.20646.
Bezrodnyj, M. K., Rachinskij, A. Ju., Golijad, N. N. and Barabash P. A. (2015), "Jeksperimental'noe issledovaniekojefficientovteplo- i massoobmena pri utilizacii teploty parogazovogo potoka v fakele kapel' mehanicheskoj forsunki[Experimentalstudyofheatand mass transfer coefficients at heat recovery steam-gas flow in the torch ofdropsofmechanicalnozzle]", Vostochno-evropejskij zhurnal peredovyh tehnologij [Eastern-European JournalofEnterpriseTechnologies],no. 6/8(78), pp. 50–59,ISSN1729-3774, doi:10.15587/1729-4061.2015.55484.
Bezrodnyj, M. K., Rachinskij, A. Ju., Barabash, P. A. and Golijad N. N. (2016), "Parametricheskie granicy jeffek-tivnogoispol'zovanija centrobezhnoj vodjanoj forsunki v kontaktnyh utilizatorah teploty othodjashhih gazov[Parametricboundariesoftheeffective use of centrifugal water nozzles in the contact heat recovery heat of exhaust gases]",IFZh[JournalofEngineering Physics and Thermophysics], no. 4, pp. ISSN1062-0125.
Pazhi, D. G. and Galustov, V. S. (1984), Osnovy tehniki raspylivanija zhidkostej [Basic techniques of atomization ofliquids],Khimiya, Publ. Moscow, Russia.
Zajcev, A. I. (1979), Osnovy teorii protsessov dvizheniya i vzaimodeystviya dispersnykh materialov v tonkikh sloyakhirazrezhennykh potokakh i razrabotka effektivnogo tekhnologicheskogo oborudovaniya dlya ikh osushchestvleniya[Basictheoryofmovement processes and the interaction of disperse materials in thin layers and dilutedflowsandthedevelopmentofefficient equipment for their implementation]², D. Sc. Thesis, 05.04.09 MachinesandequipmentOilandGasIndustry Moscow Institute of Chemical Engineering, Moscow, Russia.
Aronov, I. Z. (1990), Kontaktnyj nagrev vody produktami sgoranija prirodnogo gaza [Contact water
heating products of combustion of natural gas], Nedra, Leningrad, Russia.
Bezrodnyj M. K., Nazarova, I. A. and Havin S. A. (2003), "Teplomassoobmen pri kondensacii vodjanyh parov izparogazovojsmesi v voshodjashhem potoke s plenkoj zhidkosti [Heat and mass transfer in the condensation ofwatervaporfromthegasmixture upstream from the liquid film]", Promyshlennaja teplotehnika [Industrial Heat Engineering], no.4,pp. 26–30.
Bezrodnyj, M. K., Kostjuk, A. P. and Golijad N. N. (2011), "Kontaktnyj teplomasoobmen v pro-tochnom barbotazhnom sloe[Contact heat and mass transfer in fluid bubbling bed]", Promyshlennaja teplotehnika [Industrial HeatEngineering],vol.33,no.7,pp. 53–54, ISSN 0204-3602.
Bogdanov, S. N., Ivanov, O. P. and Kuprijanova, A. V. (1985), Holodil'naja tehnika. Svojstva veshhestv: Spravochnik[Refrigeration equipment. Properties of materials], Agropromizdat [Cooling technology], Moscow, Russia.
