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The deterioration of heat transfer during boiling emulsions with low-boiling dispersed phase
 
PIIS004036440003639-6-1
DOI10.31857/S004036440003639-6
Publication type Article
Status Published
Authors
B. Gasanov 
Affiliation: Institute of Thermophysics UB RAS
Address: Russian Federation
Journal nameTeplofizika vysokikh temperatur
EditionVolume 56 Issue 4
Pages585-588
Abstract

   

Keywords
AcknowledgmentThis work was financially supported by the Basic Research Program of the Ural Branch of the Russian Academy of Sciences (Project No. 18–2–2–13).
Received26.12.2018
Publication date26.12.2018
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1. Mori Y.H., Inui E., Komotori K. Pool Boiling Heat Transfer to Emulsions // J. Heat Transfer. 1978. V. 100. Iss. 4. P. 613.
2. Roesle M.L., Kulacki F. A. An Experimental Study of Boiling in Dilute Emulsions. Part A // Int. J. Heat Mass Transfer. 2012. V. 55. Iss. 7–8. P. 2160.
3. Roesle M.L., Kulacki F. A. An Experimental Study of Boiling in Dilute Emulsions. Part B // Int. J. Heat Mass Transfer. 2012. V. 55. Iss. 7–8. P. 2166.
4. Roesle. M.L., Lunde D. L., Kulacki F. A. Boiling Heat Transfer to Dilute Emulsions from a Vertical Heated Strip // Trans. ASME. J. Heat Transfer. 2015. V. 137(4). P. 041503.
5. Gasanov B.M., Bulanov N. V. Effect of the Droplet Size of an Emulsion Dispersion Phase in Nucleate Boiling and Emulsion Boiling Crisis // Int. J. Heat Mass Transfer. 2015. V. 88. P. 256.
6. Gasanov B.M. Boiling of Emulsions with a Low-Disperse Phase. High-Speed Filming // Int. J. Heat Mass Transfer. 2016. V. 94. P. 66.
7. Cooper M. G. The «Mirage» in Boiling // Int. J. Heat Mass Transfer. 1983. V. 26. P. 1088.
8. Snyder N.W., Robin T. T. Mass-Transfer Model in Subcooled Nucleate Boiling // Trans. ASME. J. Heat Transfer. Ser. C. 1969. V. 91(3). P. 404.
9. Berenson P. J. Experiments on Pool-Boiling Heat Transfer // Int. J. Heat Mass Transfer. 1962. V. 5. P. 985.
10. Katto Y., Yokoya S. Principal Mechanism of Boiling Crisis in Pool Boiling // Int. J. Heat Mass Transfer. 1968. V. 11. P. 993.
11. Koverda V.P., Skokov V. N., Skripov V. P. 1/f-shum pri neravnovesnom fazovom perekhode. Ehksperiment i matematicheskaya model' // ZhEhTF. 1998. T. 113. № 5. S. 1748.
12. Skokov V.N., Koverda V. P., Reshetnikov A. V. Self-Organization of a Critical State and 1/f ? Fluctuations at Film Boiling // Phys. Lett. A. 1999. V. 263. P. 430.
13. Reshetnikov A.V., Koverda V. P., Skokov V. N., Vinogradov A. V. 1/f-shum v kolebatel'nykh rezhimakh goreniya // Dokl. RAN. 2000. T. 374. Vyp. 4. S. 481.
14. Skokov V.N., Koverda V. P., Vinogradov A. V., Reshetnikov A. V. Nizkochastotnye pul'satsii s 1/f ?-spektrom moschnosti v perekhodnykh rezhimakh kipeniya vody na provolochnykh nagrevatelyakh // TVT. 2010. T. 48. № 5. S. 741.
15. Koverda V.P., Skokov V. N., Vinogradov A. V. Ustojchivost' nizkochastotnykh pul'satsij v perekhodnykh rezhimakh teploobmena s fazovymi prevrascheniyami // TVT. 2013. T. 51. № 3. S. 471.
16. Skokov V.N., Vinogradov A. V., Reshetnikov A. V., Koverda V. P. Stokhasticheskij rezonans v krizisnom rezhime kipeniya pri periodicheskom teplovydelenii // TVT. 2016. T. 53. № 3. S. 366.
17. Wenzel E.A., Kulacki F. A., Garrick S. C. Modeling and Simulation of Liquid–Liquid Droplet Heating in a Laminar Boundary Layer // Int. J. Heat Mass Transfer. 2016. V. 97. P. 653.

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