Investigation of local heat transfer in the vicinity of the contact line under steam bubbles during boiling of liquids

 
PIIS004036440002722-8-1
DOI10.31857/S004036440002722-8
Publication type Article
Status Published
Authors
Affiliation: Institute of Thermal Physics. S. S. Kutateladze SB RAS
Address: Russian Federation
Affiliation: Novosibirsk National Research State University
Address: Russian Federation
Affiliation: Institute of Thermal Physics. S. S. Kutateladze SB RAS
Address: Russian Federation
Affiliation: Institute of Thermal Physics. S. S. Kutateladze SB RAS
Address: Russian Federation
Journal nameTeplofizika vysokikh temperatur
EditionVolume 56 Issue 4
Pages563-570
Abstract

  

Keywords
AcknowledgmentThe work was done in IT SB RAS with the financial support of the Russian Foundation for Basic Research (Grant No. 17–58–53099 GFEN_a) and at the expense of funds received from the FANO of Russia under the FNI GAN Program for 2013–2020 (topic III.18.2.3, AAAA ‑ 17– 117030310025-3).
Received26.12.2018
Publication date26.12.2018
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1. Murshed S.M.S., de Castro C. A.N. A Sritical Review of Traditional and Emerging Techniques and Fluids for Electronics Cooling // Renewable Sustainable Energy Rev. 2017. V. 78. P. 821.

2. Hewitt G.F., Shires G. L., Bott T. R. Process Heat Transfer. Boca Raton, FL: CRC Press, 1994. 1042 p.

3. Yagov V. V. Teploobmen v odnofaznykh sredakh i pri fazovykh prevrascheniyakh. M.: Izd. dom MEhI, 2014. 542 s.

4. Dhir V. K. Mechanistic Prediction of Nucleate Boiling Heat Transfer–Achievable or a Hopeless Task? // J. Heat Transfer. 2006. V. 128. № 1. P. 1.

5. Son G., Dhir V. K. Numerical Simulation of Nucleate Boiling on a Horizontal Surface at High Heat Fluxes // Int. J. Heat Mass Transfer. 2008. V. 51. № 9. P. 2566.

6. Kharangate C.R., Mudawar I. Review of Computational Studies on Boiling and Condensation // Int. J. Heat Mass Transfer. 2017. V. 108. P. 1164.

7. Podowski M. Z. Toward Mechanistic Modeling of Boiling Heat Transfer // Nucl. Eng. Technol. 2012. № 8. P. 889.

8. Moore F.D., Mesler R. B. The Measurement of Rapid Surface Temperature Fluctuations During Nucleate Boiling of Water // AIChE J. 1961. V. 7. № 4. P. 620.

9. Labuntsov D. A. Mekhanizm rosta parovykh puzyr'kov na poverkhnosti nagreva pri kipenii // IFZh. 1963. T. 6. № 4. S. 33.

10. Cooper M.G., Lloyd A. J.P. The Microlayer in Nucleate Pool Boiling // Int. J. Heat Mass Transfer. 1969. V. 12. № 8. P. 895.

11. Theofanous T.G., Tu J. P., Dinh A. T., Dinh T. N. The Boiling Crisis Phenomenon. Part I. Nucleation and Nucleate Boiling Heat Transfer // Exp. Therm. Fluid Sci. 2002. V. 26. № 6. P. 775.

12. Gerardi C., Buongiorno J., Hu L. W., McKrell T. Study of Bubble Growth in Water Pool Boiling Through Synchronized, Infrared Thermometry and High-speed Video // Int. J. Heat Mass Transfer. 2010. V. 53. № 19. P. 4185.

13. Surtaev A.S., Pavlenko A. N. Observation of Boiling Heat Transfer and Crisis Phenomena in Falling Water Film at Transient Heating // Int. J. Heat Mass Transfer. 2014. V. 74. P. 342.

14. Petkovsek J., Heng Y., Zupancic M., Gjerkes H., Cimerman F., Golobic I. IR Thermographic Investigation of Nucleate Pool Boiling at High Heat Flux // Int. J. Refrigeration. 2016. V. 61. P. 127.

15. Surtaev A.S., Serdyukov V. S., Moiseev M. I. Primenenie vysokoskorostnoj infrakrasnoj termografii dlya issledovaniya kipeniya zhidkosti // PTEh. 2016. № 4. S. 140.

16. Jung S., Kim H. An Experimental Study on Heat Transfer Mechanisms in the Microlayer Using Integrated Total Reflection, Laser Interferometry and Infrared Thermometry Technique // Heat Transfer Eng. 2015. V. 36. № 12. P. 1002.

17. Jung S., Kim H. An Experimental Method to Simultaneously Measure the Dynamics and Heat Transfer Associated with a Single Bubble During Nucleate Boiling on a Horizontal Surface // Int. J. Heat Mass Transfer. 2014. V. 73. P. 365.

18. Gao M., Zhang L., Cheng P., Quan X. An Investigation of Microlayer Beneath Nucleation Bubble by Laser Interferometric Method // Int. J. Heat Mass Transfer. 2013. V. 57. № 1. P. 183.

19. Chen Z., Haginiwa A., Utaka Y. Detailed Structure of Microlayer in Nucleate Pool Boiling for Water Measured by Laser Interferometric Method // Int. J. Heat Mass Transfer. 2017. V. 108. P. 1285.

20. Surtaev A.S., Serdyukov V. S. Issledovanie dinamiki kontaktnoj linii pod parovym puzyrem pri kipenii zhidkosti na poverkhnosti prozrachnogo nagrevatelya // Teplofizika i aehromekhanika. 2018. T. 25. № 1. S. 71.

21. Labuntsov D. A. Voprosy teploobmena pri puzyr'kovom kipenii zhidkostej // Teploehnergetika. 1972. № 9. S. 14.

22. Yagov V. V. Teploobmen pri razvitom puzyr'kovom kipenii zhidkostej // Teploehnergetika. 1988. № 2. S. 4.

23. Yao Z., Lu Y. W., Kandlikar S. G. Effects of Nanowire Height on Pool Boiling Performance of Water on Silicon Chips // Int. J. Thermal Sci. 2011. V. 50. № 11. P. 2084.

24. Borishanskij V.M., Bobrovich G. I., Minchenko F. P. Teplootdacha pri puzyr'kovom kipenii vody i ehtilovogo spirta na naruzhnoj poverkhnosti trub v bol'shom ob'eme. V kn.: Voprosy teplootdachi i gidravliki dvukhfaznykh sred. M., 1961. C. 75.

25. Rallis C.J., Jawurek H. H. Latent Heat Transport in Saturated Nucleate Boiling // Int. J. Heat Mass Transfer. 1964. V. 7. № 10. P. 1051.

26. Golovin V.S., Kol'chugin B. A., Zakharova Eh. A. Issledovanie mekhanizma kipeniya ehtilovogo spirta i benzola s pomosch'yu skorostnoj kinos'emki // Sb. tr. nauch. issl. In-ta im. G. M. Krzhizhanovskogo. Vyp. 35. M., 1976. S. 30.

27. Labuntsov D. A. Priblizhennaya teoriya teploobmena pri razvitom puzyr'kovom kipenii // Izv. AN SSSR: Ehnergetika i transport. 1963. T. 1. S. 58.

28. Benjamin R.J., Balakrishnan A. R. Nucleation Site Density in Pool Boiling of Saturated Pure Liquids: Effect of Surface Microroughness and Surface and Liquid Physical Properties // Exp. Therm. Fluid Sci. 1997. V. 15. № 1. P. 32.

29. Golovin V. S. Ehksperimental'noe issledovanie teploobmena, krizisa i mekhanizma kipeniya organicheskikh zhidkostej v usloviyakh svobodnogo dvizheniya. Avtoref. dis. …kand. tekhn. nauk. M.: EhNIN, 1967. 21 s.

30. Yin S.T., Abdelmessih A. H. Prediction of Incipient Flow Boiling from a Uniformly Heated Surface // AIChE Symp. Ser. 1977. V. 73. № 164. P. 236.

31. Ametistov E.V., Klimenko V. V., Pavlov Yu. M. Kipenie kriogennykh zhidkostej. M.: Ehnergoatomizdat, 1995. 400 s.

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