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Interfacial Phenomena and Heat Transfer
Главный редактор: Oleg A. Kabov (open in a new tab)

Выходит 4 номеров в год

ISSN Печать: 2169-2785

ISSN Онлайн: 2167-857X

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MODELING OF NON-STATIONARY TEMPERATURE FIELD IN THE NEIGHBORHOOD OF THE OPTICAL FIBER END UNDER LASER PULSE HEATING

Том 8, Выпуск 1, 2020, pp. 25-32
DOI: 10.1615/InterfacPhenomHeatTransfer.2020032806
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Anatoliy A. Levin
Novosibirsk State University, 2 Pirogova St., Novosibirsk, Russia; Melentiev Energy Systems Institute SB RAS, 130 Lermontova St., Irkutsk, Russia
A. S. Safarov
Novosibirsk State University, 2 Pirogova St., Novosibirsk, Russia; Melentiev Energy Systems Institute SB RAS, 130 Lermontova St., Irkutsk, Russia
V. M. Chudnovskii
Novosibirsk State University, 2 Pirogova St., Novosibirsk, Russia; V.I. Il'ichev Pacific Oceanological Institute, 43 Baltiyskaya St., Vladivostok, Russia
Andrey A. Chernov
Novosibirsk State University, 2 Pirogova St., Novosibirsk, Russia; Institute of Thermophysics SB RAS, 1 Ac. Lavrentiev Ave., Novosibirsk, Russia

Краткое описание

This paper considers modeling of the non-stationary temperature field for the liquid near the face end of a quartz−quartz polymer fiber with a core diameter of 400 μm at the moment of the vapor bubble appearance. We present a mathematical model that incorporates laws of the radiation propagation and non-stationary forms for laws of conservation of momentum, mass, and energy. We estimated the heating time and the thermal picture in the neighborhood of the fiber end required to reach the conditions for homogeneous nucleation. The results of numerical simulation are compared with the characteristics of the vapor−gas bubble, which were obtained experimentally.

Ключевые слова: unsteady heat transfer, laser induced boiling
ЛИТЕРАТУРА

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  2. Christopher, D.M., Wang, H., and Peng, X., Dynamics of Bubble Motion and Bubble Top Jet Flows from Moving Bubbles on Microwires, ASME J Heat Transf, vol. 127, pp. 1260-1268, 2005.

  3. Chudnovskii, V.M., Levin, A.A., Yusupov, V.I., Guzev, M.A., and Chernov, A.A., The Formation of a Cumulative Jet during the Collapse of a Vapor Bubble in a Subcooled Liquid Formed as a Result of Laser Heating, Int. J. Heat Mass Transf., vol. 150, p. 119286,2020.

  4. Levin, A.A. and Khan, P. V., Experimental Observation of the Maximum Bubble Diameter in Non-Stationary Temperature Field of Subcooled Boiling Water Flow, Int. J. Heat Mass Transf., vol. 124, pp. 876-883, 2018.

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  7. Marqa, M.F., Mordon, S., and Betrouni, N., Laser Interstitial Thermotherapy of Small Breast Fibroadenomas: Numerical Simulations, Lasers Surg. Med., vol. 44, no. 10, pp. 832-839, 2012.

  8. Nguyen, D.M., Hu, L., Miao, J., and Ohl, C.D., Oscillate Boiling from Electrical Microheaters, Phys. Rev. Appl., vol. 10, p. 044064, 2018.

  9. Padilla-Martinez, J.P., Berrospe-Rodriguez, C., Aguilar, G., Ramirez-San-Juan, J.C., and Ramos-Garcia, R., Optic Cavitation with CW Lasers, Rev. Phys. Fluids, vol. 26, p. 122007, 2014.

  10. Wan, C.A., Zeigarnik, Yu.A., Platonov, D.N., Khodakov, K.A., and Shekhter, Yu.L., The Nature of Microbubble Emission under Subcooled Water Boiling, High Temp., vol. 50, no. 1, pp. 78-83, 2012.

  11. Wang, H., Peng, X.F., Wang, B.X., and Lee, D.J., Jet Flow Phenomena during Nucleate Boiling, Int. J. Heat Mass Transf., vol. 45, pp. 1359-1363,2002.

  12. Wang, H., Peng, X., Christopher, D.M., and Garimella, S.V., Jet Flows around Microbubbles in Subcooled Boiling, ASMEJ. Heat Transf, vol. 127, p. 802, 2005a.

  13. Wang, H., Peng, X.F., Christopher, D.M., Lin, W.K., and Pan, C., Investigation of Bubble-Top Jet Flow during Subcooled Boiling on Wires, Int. J. Heat Fluid Flow, vol. 26, pp. 485-494,2005b.

  14. Yusupov, V.I., Chudnovskii, V.M., and Bagratashvili, V.N., Laser-Induced Hydrodynamics in Water-Saturated Biotissues. 1. Gen-eration of Bubbles in Liquid, Laser Phys., vol. 20, no. 7, pp. 1641-1647, 2010.

  15. Yusupov, V.I., Chudnovskii, V.M., and Bagratashvili, V.N., Laser-Induced Hydrodynamics in Water-Saturated Biotissues: 2. Effect on Delivery Fiber, Laser Phys, vol. 21, no. 7, pp. 1230-1234, 2011.

  16. Zhukov, S.A., Afanas'ev, S.Yu., and Echmaev, S.B., Concerning the Magnitude of Maximum Heat Flux and the Mechanisms of Superintensive Bubble Boiling, Int. J. Heat Mass Transf, vol. 46, p. 3411, 2003.

ЦИТИРОВАНО В

  1. Fursenko Roman V., Chudnovskii Vladimir M., Minaev Sergey S., Okajima Junnosuke, Mechanism of high velocity jet formation after a gas bubble collapse near the micro fiber immersed in a liquid, International Journal of Heat and Mass Transfer, 163, 2020. Crossref

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