Dynamics of transient processes at liquid boiling-up in the conditions of free convection and forced flow in a channel under nonstationary heat release

Okuyama, K., Takehara, R., Iida, Y., and Kim J., Pumping Action by Boiling Propagation in aMicrochannel, Microscale Thermophys. Eng., 2005, vol. 9, no. 2, pp. 119–135.

Huai, X., Wang, G., Jin, R., Yin, T., and Zou, Y., Microscopic Explosive Boiling Induced by a Pulsed-Laser Irradiation, Heat Mass Transfer, 2008, vol. 45, pp. 117–126.

Al’tov, V.A., Zenkevich, V.B., Kremlev, M.G., and Sychev, V.V., Stabilization of Superconducting Magnetic Systems, 3th ed., Moscow: Izd. DomMEI, 2008.

Shepherd, J.E. and Sturtevant, B., Rapid Evaporation at the Superheat Limit, J. FluidMech., 1982, vol. 121, pp. 379–402

Tsukamoto, O. and Uyemura, T., Observation of Bubble Formation Mechanism of Liquid Nitrogen Subjected to Transient Heating, Adv. Cryog. Eng., 1980, vol. 25, pp. 476–482.

Frost, D.L., Dynamics of Explosive Boiling of a Droplet, Phys. Fluid, 1988, vol. 31, no. 9, pp. 2554–2561.

Pavlenko, A.N. and Chekhovich, V.Yu., CriticalHeat Flux at TransientHeatGeneration, Izv. Sib.Otd. Akad. Nauk SSSR, Ser. Tekhn. Nauk, 1990, vol. 2, pp. 3–9.

Pavlenko, A.N. and Chekhovich, V.Yu., Heat Transfer Crisis at Transient Heat Release, Russ. J. Eng. Thermophys., 1991, vol. 1, no. 1, pp. 73–92.

Fauser, J. and Mitrovic, J., Propagation of Boiling Fronts in Superheated Liquids, Proc. II Conf. on Convective Flow and Pool Boiling, Irsee, Germany, 1997.

Theofanous, T.G. and Yuen, W.W., Fundamentals of Boiling and Multiphase Flow under Extreme Conditions, Heat Transfer 1998, Proc. 11th IHTC, Kyongju, Korea, vol. 1, pp. 131–147.

Fauser, J. and Mitrovic, J., Some Features of Boiling Fronts on Heated Surfaces, Heat Transfer 1998, Proc. 11th IHTC, Kyongju, Korea, vol. 2, pp. 377–382.

Okuyama, K., Iida, Y., Sasaki, H., and Kim, J., Vapor Generation and Collapse Behavior on a Fine Wire Subjected to Pulse Heating (Experimental Results for a Wide Range of Heating Rates), Thermal Sci. Eng., 1999, vol. 7, no. 4, pp. 37–43.

Avksentyuk, B.P. and Ovchinnikov, V.V., Heat Transfer Crisis in Water at Stepwise Power Generation, Thermophys. Aeromech., 1999, vol. 6, no. 2, pp. 251–259.

Wang, J., Preliminary Analysis of Rapid Boiling Heat Transfer, Int. Comm. Heat and Mass Transfer, 2000, vol. 27, pp. 377–388

Moloshnikov, A.S. and Shmal, I.I., Two Regimes of Superheated Liquid Boiling on a Wire, High Temp., 2000, vol. 38, no. 1, pp. 57–60.

Mitrovic, J. and Fauser, J., Propagating of Boiling Fronts along Horizontally Arranged Heated Tubes, Trans. Inst. Chem. Eng., 2001, vol. 79,part A, pp. 363–370.

Avksentyuk, B.P. and Ovchinnikov, V.V., Third Heat Transfer Crisis with Stepwise Heat Supply, J. Appl. Mech. Techn. Phys., 2001, vol. 42, no. 5, pp. 857–863.

Obuhov, S.G., Drulis, V.N., Egoshin, E.A., and Obuhov, D.S., Nonstationary Nucleate Boiling Crisis at Electro-Regulation of Thermal Loading, J. Eng. Phys. Thermophys., 2002, vol. 78, no. 6, pp. 126–130.

Glod, S., Poulikakos, D., Zhao, Z., and Yadigarogly, G., An Investigation of Microscale Explosive Vaporization of Water on an Ultrathin Pt Wire, Int. J. Heat Mass Transfer, 2002, vol. 45, pp. 367–379.

Theofanous, T.G., Tu, J.P., Dinh, A.T., and Dinh, T.N., The Boiling Crisis Phenomenon, J. Exp. Thermal Fluid Sci., 2002, vol. 26, part I, pp. 775–792; part II, pp. 793–810.

Pavlenko, A.N., Transitional Processes and Crisis Phenomena in Boiling of Cryogenic Liquids, Selected Transactions of NATO Advanced Study Institute, Mathematics, Physics and Chemistry, Nato Science Series, Netherlands: Kluwer, 2003, vol. 99, pp. 145–164.

Deev, V.I., Kharitonov, V.S., Kutsenko, K.V., and Lavrukhin, A.A., Transient Boiling Crisis of Cryogenic Liquids, Int. J. Heat Mass Transfer, 2004, vol. 47, no. 25, pp. 5477–5482.

Duluc, M., Stutz, B., and Lallemand, M., Transient Nucleate Boiling under Stepwise Heat Generation for Highly Wetting Fluids, Int. J. Heat Mass Transfer, 2004, vol. 47, no. 25, pp. 5541–5553.

Dong, Z., Huai, X., and Liu, D., Experimental Study on the Explosive Boiling in Saturated Liquid Nitrogen, Progress Nat. Sci., 2005, vol. 15, pp. 61–65.

Theofanous, T.G. and Dinh, T.N., High Heat Flux Boiling and Burnout as Microphysical Phenomena: Mounting Evidence and Opportunities, Multiphase Sci. Technol., 2006, vol. 18, no. 1, pp. 1–26.

Okuyama, K., Kim, J., Mori, S., and Iida, Y., Boiling Propagation of Water on a Smooth Film Heater Surface, Int. J. Heat Mass Transfer, 2006, vol. 49,iss. 13/14, pp. 2207–2214.

Pavlenko, A.N. and Chekhovich, V.Yu., Interconnection between Dynamics of Liquid Boiling-up and Heat Transfer Crisis for Nonstationary Heat Release, J. Eng. Therm., 2007, vol. 16, no. 3, pp. 175–187.

Pavlenko, A.N., Surtaev, A.S., and Matsekh, A.M., Transient Processes in Falling Films of Liquid under Conditions of Unsteady-State Heat Release, High Temp., 2007, vol. 45, no. 6, pp. 905–916.

Surtaev, A.S. and Pavlenko, A.N., Development of Crisis Phenomena in Falling Wavy Liquid Films at Nonstationary Heat Release, Microgravity Sci. Technol., 2010, vol. 22,iss. 2, pp. 215–221.

Pavlenko, A.N., Surtaev, A.S., Starodubtseva, I.P., Volodin, O.A., Chernyavskiy, A.N., Tsoy, A.N., and Pyatkov, A.S., Decay of Falling Wavy Liquid Films at Nonstationary Heat Release, Proc. 14th Int. Heat Transfer Conf. (IHTC-14), Washington, USA, 8–13 August, 2010, IHTC 2010-22174.

Deev, V.I., Kutsenko, K.V., Lavrukhin, A.A., and Kharitonov, V.S., Influence of Initial Heat Generation on Dynamic Characteristics of Transient Boiling Crisis of Water, Int. J. Heat Mass Transfer, 2010.

Kozulin, I.A. and Kuznetsov, V.V., Explosive Vaporization of a Water Layer on a Flat Microheater, J. Eng. Therm., 2010, vol. 19, no. 2, pp. 102–109.

Kuznetsov, V.V., Oreshkin, V.I., Zhigalin, A.S., Kozulin, I.A., Chaikovsky, S.A., and Rousskikh, A.G., Metastable States and Their Disintegration at Pulse Liquid Heating and Electrical Explosion of Conductors, J. Eng. Therm., 2011, vol. 20, no. 3, pp. 240–248.

Pavlenko, A.N., Koverda, V.P., Reshetnikov, A.V., Surtaev, A.S., Tsoi, A.N., Mazheiko, N.A., Busov, K.A., and Skokov, V. N., Disintegration of Flows of Superheated Liquid Films and Jets, J. Eng. Therm., 2013, vol. 22, no. 3, pp. 174–193.

Zhukov, V.I. and Pavlenko, A.N., Critical Effects at Evaporation in a Thin Liquid Layer under Reduced Pressure, J. Eng. Therm., 2013, vol. 22, no. 4, pp. 257–287.

Surtaev, A., Pavlenko, A., and Tsoi, A., Development of Heat Transfer at Boiling and Crisis Phenomena in Falling Liquid Film at Stepwise Heat Generation, Proc. 8th World Conf. on Experimental Heat Transfer, Fluid Mechanics, and Thermodynamics (ExHFT-8), Lisbon, Portugal, 2013.

Pavlenko, A.N., Surtaev, A.S., and Tsoi, A.N., Transitional Processes and Crisis Phenomena Development at Boiling in Falling Liquid Film at Stepwise Heat Generation, Proc. 2nd Int. Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control, Xi’an, China, Report IWHT2013-008, 2013.

Chernyavskii, A.N. and Pavlenko, A.N., Determination of Expectation Time of Boiling in Falling Liquid Films at Nonstationary Heat Release, Vestnik NGU, Phys., 2013, vol. 8, pp. 40–48.

Borishanskiy, V.M. and Fokin, B.S., Onset of Heat-Transfer Crisis with Unsteady Increase in Heat Flux, Heat Transfer, Sov. Res., 1969, vol. 1, no. 5, pp. 1–55.

Sinha, D.N., Brodie, L.C., Semura, J.S., and Young, F.M., Premature Transition to Stable Film Boiling Initiated by Power Transients in Liquid Nitrogen, Cryog., 1979, vol. 19, pp. 225–229.

Tsukamoto, O. and Uemura, T., Observation of Bubble Formation Mechanism of Liquid Nitrogen Subjected to Transient Heating, Adv. Cryog. Eng., 1980, vol. 25, pp. 476–482.

Okuyama, K., Kozawa, Y., and Inoue, A., Transient Boiling Heat Transfer Characteristics of R 113 at Large Stepwise Heat Generation, Int. J. Heat Mass Transfer, 1988, vol. 31, no. 10, pp. 2161–2174.

Pavlenko, A.N., Transient Critical Heat Flux in Liquid at Different Fixing Laws of Heat Generation, Izv. Sib. Otd. Akad. Nauk SSSR, Ser. Tekhn. Nauk, 1990, vol. 2, pp. 131–137.

Okuyama, K. and Iida, Y., Transient Boiling Heat Transfer Characteristics of Nitrogen (Bubble Behavior and Heat Transfer Rate at Stepwise Heat Generation), Int. J. Heat Mass Transfer, 1990, vol. 33, pp. 2065–2071.

Terner, E., Shork Tube Experiments Involving Phase Changes, Ind. Engng. Chem. Process Des. Devel., 1962, vol. 1, no. 2, pp. 84–89.

Gromles, M.A. and Fauske, H.K., Axial Propagation of Free Surface Boiling into Superheated Liquids in Vertical Tubes, Proc. Fifth Int. Heat Transfer Conf., London, 1974, vol. 4, pp. 30–34.

Shuravenko, N.A., Isaev, O.A., and Skripov, V.P., Explosive Incipience of Superheated Liquid upon Exhaustion through Short Pipes, Teplofiz. Vys. Temp., 1975, vol. 13, no. 4, pp. 896–898.

Borkar, G.S., Lienhard, J.H., and Trela, M.A., Rapid Hot-Water Depressurization Experiment, Report EPRI NP-527, Project RP687-1, 1977.

Reshetnikov, A.V., Isaev, O.A., and Skripov, V.P., Critical Flow-Rates of a Boiling Liquid and a Condensing Gas in a Nonequilibrium Discharge Regime, High Temp., 1988, vol. 26, no. 3, pp. 405–409.

Reshetnikov, A.V., Isaev, O.A., and Skripov, V.P., Flow-Rate of Boiling Liquid on Issuing into Atmosphere-Conversion from Model Material to Water, High Temp., 1988, vol. 26, no. 4, pp. 598–601.

Wildgen, A. and Straub, J., The Boiling Mechanism in Superheated Free Jets, Int. J. Multiphase Flow, 1989, vol. 15, no. 2, pp. 193–207.

Bartak, J.A., Study of the Rapid Depressurization of Hot Water and the Dynamics of Vapor Bubble Generation in Superheated Liquid, Int. J. Multiphase Flow, 1990, vol. 16, pp. 789–798.

Kurschat, Th., Chaves, H., and Meier, G.E.A., Complete Adiabatic Evaporation of Highly Superheated Liquid Jets, J. Fluid Mech., 1992, vol. 236, pp. 43–59.

Bilicki, Z., Mathematical Model of Rapid Depressurization with Evaporation of a Liquid, Proc. Second Int. Conf. on Heat Transfer and Transport Phenomena in Multiphase Systems, Kielce, Poland, 1999, pp. 35–44.

Aamir, M.F. and Watkins, A.P., Numerical Analysis of Depressurization of Highly Pressurized Liquid Propane, Int. J. Heat and Fluid Flow, 2000, no. 21, pp. 420–431.

Reshetnikov, A.V., Mazheiko, N.A., and Skripov, V.P., Jets of Incipient Liquids, J. Appl.Mech. Techn. Phys., 2000, no. 41, pp. 491–497.

Reinke, P. and Yadigaroglu, G., Explosive Vaporization of Superheated Liquids by Boiling Fronts, Int. J. Multiphase Flow, 2001, vol. 27, no. 9, pp. 1487–1516.

Bohdal, T. and Kuczynski, W., Investigation of Boiling of Refrigerant Medium under Periodic Disturbance Conditions, Exp. Heat Transfer, 2005, vol. 18, pp. 135–151.

Reshetnikov, A.V., Mazheiko, N.A., Skokov, V.N., and Koverda, V.P., Noneqilibrium Phase Transitions in the Jet of Highly Superheated Liquid, High Temp., 2007, vol. 45, no. 6, pp. 268–274.

Bohdal, T. and Kuczynski, W., Boiling of Refrigerant under Periodic Disturbance Conditions, Proc. 5th Int. Conf. on Transport Phenomena in Multiphase Systems, vol. 2, Bialystok, Poland, 2008, pp. 1–8.

Reshetnikov, A.V., Mazheiko, N.A., Vinogradov, A.V., Busov, K.A., and Koverda, V.P., Dynamic Characteristics of Boiling Jets and Superheated Water Solutions, Teploenergetika, 2010, no. 8, pp. 69–73.

Reshetnikov, A.V., Mazheiko, N.A., Busov, K.A., Koverda, V.P., and Roenko, V.V., Crisis Phenomena in a Jet of Boiling Water Solutions, Trudy pyatoi Rossiiskoi natsional’noi konferentsii po teploobmenu (RNKT-5) (Proc. Fifth Russian National Conf. on Heat Transfer (RNCHT-5)), vol. 4, Moscow, 2010, pp. 153–156.

Pavlenko, A.N., Surtaev, A.S., Zhukov, V.E., Koverda, V.P., Reshetnikov, A.V., and Mazheiko, N.A., Peculiarities of Superheated Liquid Discharging under Strong and Weak Nonequilibrium Conditions, J. Eng. Therm., 2010, vol. 19, no. 4, pp. 289–305.

Roenko, V.V., Usage of Superheated Water for Fire Fighting, Mir Bezopasn., 2004, no. 6, pp. 20–24.

Clarke, H., Martinez-Herasme, A., Crookes, R., and Wen, D.S., Experimental Study of Jet Structure and Pressurization upon Liquid Nitrogen Injection into Water, Int. J. Multiphase Flow, 2010, vol. 36,iss. 11/12, pp. 940–949.

Simous-Moreira, J.R., Vieira, M.M., and Angelo, E., Highly Expanded Flashing Liquid Gets, J. Therm. Heat Transfer, 2002, vol. 16, no. 3, pp. 415–424.

Avksentyuk, B.P. and Ovchinnikov, V.V., Evaporation Front and the Flashing Effect, Trudy 4-oi Rossiiskoi natsional’noi konferentsii po teploobmenu (RNKT) (Proc. Fourth Russian National Conf. on Heat Transfer (RNCHT)), vol. 4, Moscow, 2006, pp. 37–40.

Polanco, G., Hold, A.E., and Munday, G., General Review of Flashing Jet Studies, J. Hazardous Materials, 2010, no. 173, pp. 2–18.

Kuznetsov, V.V., Kozulin, I.A., and Vitovsky, O.V., Experimental Investigation of Adiabatic Evaporation Waves in Superheated Refrigerants, J. Eng. Therm., 2012, vol. 21, no. 2, pp. 136–143.

Avksentyuk, B.P., Non-Equilibrium Model of an Evaporation Front, Russ. J. Eng. Therm., 1995, vol. 5, pp. 1–8.

Pavlenko, A.N. and Lel, V.V., Model of Self-Maintaining Evaporation Front for Superheated Liquids, Proc. Third Int. Conf. on Multiphase Flow, ICMF-98, no. 4, Lyon, France, Prod. by File M- www.filem.com ., 1998, pp. 3–5.

Pavlenko, A.N. and Lel, V.V., Approximate Simulation Model of a Self-Sustaining Evaporating Front, Thermophys. Aeromech., 1999, vol. 6, no. 1, pp. 105–117.

Aktershev, S.P. and Ovchinnikov, V.V., Model of Stationary Motion of Multiphase Surface in the Layer of Extremely Heated Liquid, J. Appl. Mech. Tech. Phys., 2008, vol. 49, no. 2, pp. 47–55.

Pavlov, P.A. and Vinogradov, V.E., Dynamics of Vapor Film Formation upon Rapid Superheating of Liquid, High Temp., 2010, vol. 48, no. 5, pp. 683–690.

Aktershev, S.P. and Ovchinnikov, V.V., Modeling of the Vaporization Front on a Heater Surface, J. Eng. Therm., 2011, vol. 20, no. 2, pp. 77–88.

Syromyatnikov, S.N. and Pavlov P.A., Instability of Evaporating Surface, High Temp., 1998, vol. 36, no. 2, pp. 282–286.

Sinkevich, O.A., Glazkov, V.V., Ivochkin, Yu.P., and Kireeva, A.N., Vapor Films under Influence of High Heat Fluxes: Nongravity Surface Waves and Film Explosive Disintegration, Int. J. Nonlinear Sci. Numer. Simul., 2013, vol. 14, no. 1, pp. 1–14.

Pavlenko, A.N., Zhukov, V.E., and Starodubtseva, I.P., Propagation of Self-Sustained Evaporation Fronts at Step-Wise Heat Generation and Crisis Phenomena at Pool Boiling, Comput. Thermal Sci., 2011, vol. 3, no. 5, pp. 1–8.

Pavlenko, A.N., Tairov, E.A., Zhukov, V.E., Levin, A.A., and Tsoi, A.N., Investigation of Transient Processes at Liquid Boiling under Nonstationary Heat Generation Conditions, J. Eng. Therm., 2011, vol. 20, no. 4, pp. 380–406.

Stakhanova, A.A., Varava, A.N., Dedov, A.V., and Komov, A.T., Studying Heat Transfer during Impulse Heating of Model Fragments of Fuel Rod Claddings, Thermal Eng., 2011, vol. 58, no. 7, pp. 602–609.

Pokusaev, B.G., Tairov, E.A., and Khudyakov, D.V., Dynamics of Pressure at Stepped Heat Release in a Channel with the Heat Transfer Carrier, High Temp., 1993, vol. 31, pp. 581–585.

Zhukov, V.E., Pavlenko, A.N., Surtaev, A.S., and Moiseev, M.I., Boiling-up Dynamics and Crisis Phenomena at Stepped Heat Release under the Conditions of Free Convection in Freon-21, Proc. 5th Russian National Conf. on Heat Transfer (RNCHT-5), vol. 4, Moscow, 2010, pp. 84–87.

Landau, L.D. and Lifshits, E.P., Mekhanika sploshnykh sred (Continuum Mechanics), Moscow: Gostekhizdat, 1944.

Zhukov, V.E., Kuznetsov, D.V., Moiseev, M.I., and Bartashevich, M.V., Dynamics of Propagation of Self-Sustained Evaporation Front under Conditions of Normal and Microgravity, Modern Sci., 2013 (in press).