Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Various forces acting on a bubble growing on a horizontal smooth and enhanced tube have been evaluated by using the measured geometric bubble data. Great effort has been made to accurately evaluate the dynamic forces. It has been shown that the dynamic forces play a more important role in the bubble growth on an enhanced surface than on a smooth surface. A correlation for predicting the bubble departure diameter from an enhanced tube has been derived from the force balance. This correlation has a form similar to that commonly used for smooth tubes while baring a different physical meaning.
Słowa kluczowe
Rocznik
Tom
Strony
57--74
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
autor
- Institute of Nuclear Technology and Energy Systems (IKE), University of Stuttgart, Germany
autor
- Institute of Nuclear Technology and Energy Systems (IKE), University of Stuttgart, Germany
autor
- Institute of Nuclear Technology and Energy Systems (IKE), University of Stuttgart, Germany
autor
- Institute of Nuclear Technology and Energy Systems (IKE), University of Stuttgart, Germany
Bibliografia
- 1 Chen Y., Groll M., Mertz R. and Kulenovic R.: Comparison of pool boiling bubble dynamics on smooth and, enhanced tubes,Int. J. Heat & Tech.. 20(2002), No.1, 3-14.
- 2. Cole R.: ,A photographic study of pool boiling in the region of the critical heat transfer, AIChE J., 6(1960), No. 4, 533-538.
- 3. RolI J. B. and Myers J.E,: The effect of surface tension on factors in boiling heat transfer AIChE J., 10(1964), 530-534.
- 4. Keshok E. G. and Siegel, R,: Forces acting on bubbles ,in nucleate boiling under normal and reduced gravity conditions, NASA Tech. Note TN D-2299, 1964.
- 5. Cochran T. H., Aydelott J. C. and Frysinger T. C,: The effect of subcooling and gravity level on boiling in the discrete bubble region, NASA Tech. Note TN D-3449, 1966.
- 6. Siegel R.: Effects of reduced gravity on heat transfer, Adv. in Heat Transfer, 4(1967), 143-228.
- 7. Rehm T, R.: Bubble growth parameters in saturated and subcooled nucleate boiling, Chem. Eng. Prog, Symp.Ser., 64(1968), 88-94
- 8. Voloshko A. A. and Vurgaft A. V.: Dynamics of uapor-bubble breakoff under free-convection boiling condition, Heat Transfer - Soviet Research, 2(1,970), No,6, 136-141.
- 9. Hatton A. P., James D, D. and Liew T. L; Measurement of bubble characteristics for pool boiling from single cylindrical cavities, Proc. 4th Int, Heat Transfer Conf., Paris, Rance, Vol. V, B1.2,1970.
- 10. Kirichenko Y, A,: Eualuation of the conditions of vapor bubble separation during nucleate boiling, J. of Eng. Phys., 25(1973), No. 1, 811-817,
- 11. Saini J. S., Gupta C. P. and Lal S.: Effect of Jakob number on forces controlling bubble departure in nucleate pool boiling, Int. J. of Heat and Mass Transfer, 18(1975), 472-474
- 12. Golorin V. S., Kol'Chugin B, A, and Zakharova E. A,: Inuestigation of the mechanism of nucleate boiling of ethyl alcohol and benzene by means of high-speed motion-picture photography, Heat Transfer - Soviet Research, 10(1978), No. 4, 79-98.
- 13. ZengL. Z.,Klausner J. F. and Mei R.: A unified model for the prediction of bubble detachment diameters in boiling systems - I. Pool boiling, Int. J. of Heat and Mass Transfer, 36(1993),2261-2270.
- 14. Ginet N., Cioulachtjian S. end Lallemand M.: Analysis of the forces acting on a single bubble of pentane growingon a horizontal wall, Proc. 4th Int. Conf. on Multiphase flow New Orleans, USA. Paper No. 840, 2001
- 15. Johnson M. A., Javier de la Pena, Jr. and Mesler R. B.: Bubble shapes in nucleate boiling, AIChe,J 12(1966), No. 2. 344-348
- 16. Cornwell K. and GrauntL A.: Heat transfer to bubbles under a horizontal tube, Int, J. of Heat and Mass Transfer. 41(1998), 1189-1197.
- 17. Sakashita C. and kamada T.: Macrolayer formation and mechanism of nucleate boiling critical heat flux and transition boiling, Heat TransferJapanese Research. 27(2), 1998, 155-168.
- 18. Milne-Thomsen L. M.: Theoretial Hydrodynamics, 2ndEd., The Macmillan Company New York 1950.
- 19. Cole R. and Shullman H. L.: Bubble departure diameters at subatmospheric pressures Chem eng. Prog. Symp- Ser., 62(1966), 6-16.
- 20. Peebles F. N. and Garbel H- J: Studies on the motion of gas bubbles in liquids Chem. Eng. Prog., 49(1953) No. 2, 88-97.
- 21. Kupfelberg A. Jamenson G.J. Bubble formation at submerged orifice above a chamber of finite volume. Trans Instn. Chem. Engrs. 47(1969), 241-251
- 22. Khurana A. K. . and Kumar R: studies in bubble fomrmation-IlI Chem. Engi. Sci. (1969) 1711-1723
- 23. Mendelson H. D.: The prediction of bubble terminal velocities from wave theory AICHE J., 13 (1967) No. 2 250-253
- 24. Nalkayama W. DaikokuT- Kurahara H. and Nakajima T.: Dynamic model of entranced boiling heat transfer on porous surfaces, Part II: Analytical modeling J. of Heat Transfer 102 (1980) 451-456
- 25 Chien L-H and Webb R- L; A nucleate boiing model for structured, enxtanced surfaces,,Int- J- Heat and Mass Transfer, 41(1998), No. 14, 2183-2195
- 26. Bugevisch Yu. A. and Webbon B. W.: Dynamics of vapour bubble in nucleate boiling, Int. J. of Heat and Mass Transfer, 39(1996), 2409-2426
- 27. Chen Y. and Groll M. Study on bubble dynamics by simulating the shape of buble on heating surfaces. Tech Note, IKE-5TN-1733-02,2002,
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWM2-0008-0024