图书馆订阅: Guest
Begell Digital Portal Begell 数字图书馆 电子图书 期刊 参考文献及会议录 研究收集
传热学
影响因子: 1.199 5年影响因子: 1.155 SJR: 0.267 SNIP: 0.503 CiteScore™: 1.4

ISSN 打印: 1064-2285
ISSN 在线: 2162-6561

卷:
卷 51, 2020 卷 50, 2019 卷 49, 2018 卷 48, 2017 卷 47, 2016 卷 46, 2015 卷 45, 2014 卷 44, 2013 卷 43, 2012 卷 42, 2011 卷 41, 2010 卷 40, 2009 卷 39, 2008 卷 38, 2007 卷 37, 2006 卷 36, 2005 卷 35, 2004 卷 34, 2003 卷 33, 2002 卷 32, 2001 卷 31, 2000 卷 30, 1999 卷 29, 1998 卷 28, 1997

传热学

DOI: 10.1615/HeatTransRes.2019027922
pages 1457-1476

BOILING HEAT TRANSFER PERFORMANCE OF A BRASS BEADS-PACKED POROUS LAYER SUBJECTED TO SUBMERGED JET IMPINGEMENT

Yunsong Zhang
Merchant Marine College, Shanghai Maritime University, Shanghai, 201306, P.R. China
Wei Chen
Merchant Marine College, Shanghai Maritime University, Shanghai 201306, China

ABSTRACT

Submerged impingement boiling has been extensively applied in industrial cooling owing to its high heat transfer coefficient (HTC). A particles-packed porous layer with enlarged heat transfer area and special internal porous structure can improve the fluid disturbance and produce adequate bubble nucleation sites. An experimental investigation on submerged jet impinging boiling of a brass beads-packed porous layer was conducted. The effects of jet flow rate, fluid inlet subcooling, beads diameter, layer number as well as various double layer combination models on heat transfer performance were analyzed. The impact on the onset of nucleate boiling (ONB) and critical heat flux (CHF) was also explored. The results show that better cooling property can be obtained for a higher jet flow rate, a higher fluid inlet subcooling, and a smaller single layer bead diameter, while the optimal layer number and double layer combination model exist for best heat transfer. Besides, a high-speed camera was utilized to capture the actual scene of submerged jet impingement boiling for visualization study of the dynamics evolution of vapor bubbles which would be highly linked to the heat transfer process.

REFERENCES

  1. Antwerpen, V.W., Toit, C.G.D., and Rousseau, P.G., A Review of Correlations to Model the Packing Structure and Effective Thermal Conductivity in Packed Beds of Mono-Sized Spherical Particles, J. Nuclear Eng. Design, vol. 240, no. 7, pp. 1803-1818, 2010.

  2. Ebrahimi Dehshali, M., Seyyed, Z.N.B., and Hakkaki-Fard, A., Pool Boiling Heat Transfer Enhancement by Twisted-Tape Fins, J. Appl. Therm. Eng., S1359431117367601, 2018.

  3. Felipe, T.D. and Lemos, M.J.S.D., Simulation of Laminar Impinging Jet on a Porous Medium with a Thermal Non-Equilibrium Model, Int. J. Heat Mass Transf., vol. 53, nos. 23-24, pp. 5089-5101, 2010.

  4. Graminho, D.R. and Lemos, M.J.S.D., Simulation of Turbulent Impinging Jet into a Cylindrical Chamber with and without a Porous Layer at the Bottom, Int. J. Heat Mass Transf., vol. 52, nos. 3-4, pp. 680-693, 2009.

  5. Guo, D., Wei, J., and Zhang, Y., Enhanced Flow Boiling Heat Transfer with Jet Impingement on Micro-Pin-Finned Surfaces, J. Appl. Therm. Eng., vol. 31, nos. 11-12, pp. 2042-2051, 2011.

  6. Jeng, T.M., Tzeng, S.C., and Huang, Q.Y., Heat Transfer Performance of the Pin-Fin Heat Sink Filled with Packed Brass Beads under a Vertical Oncoming Flow, Int. J. Heat Mass Transf., vol. 86, pp. 531-541, 2015.

  7. Jenkins, R., Lupoi, R., Kempers, R., and Robinson, A., Heat Transfer Performance of Boiling Jet Array Impingement on Micro-Grooved Surfaces, J. Exp. Therm. Fluid Sci., vol. 80, pp. 293-304, 2017.

  8. Ji, X., Xu, J., and Zhao, Z., Pool Boiling Heat Transfer on Uniform and Non-Uniform Porous Coating Surfaces, J. Exp. Therm. Fluid Sci., vol. 48, no. 7, pp. 198-212, 2013.

  9. Lin, F.C., Liu, B.H., Huang, C.T., and Chen, Y.M., Evaporative Heat Transfer Model of a Loop Heat Pipe with Bidisperse Wick Structure, Int. J. Heat Mass Transf., vol. 54, no. 21, pp. 4621-4629, 2011.

  10. Qiu, L., Dubey, S., and Choo, F.H., Effect of Conjugation on Jet Impingement Boiling Heat Transfer, Int. J. Heat Mass Transf., vol. 91, pp. 584-593, 2015a.

  11. Qiu, L., Dubey, S., Choo, F.H., and Duan, F., Recent Developments of Jet Impingement Nucleate Boiling, Int. J. Heat Mass Transf., vol. 89, pp. 42-58, 2015b.

  12. Rahman, M.M., Olferoglu, E., and Mccarthy, M., Role of Wickability on the Critical Heat Flux of Structured Superhydrophilic Surfaces, J. Langmuir ACS J. Surfaces Colloids, vol. 30, no. 37, p. 11225, 2014.

  13. Semenic, T. and Catton, I., Experimental Study of Biporous Wicks for High Heat Flux Applications, Int. J. Heat Mass Transf., vol. 52, no. 21, pp. 5113-5121, 2012.

  14. Setoodeh, H., Keshavarz, A., Ghasemian, A., and Nasouhi, A., Subcooled Flow Boiling of Alumina/Water Nanofluid in a Channel with a Hot Spot: An Experimental Study, J. Appl. Therm. Eng., vol. 90, pp. 384-394, 2015.

  15. Setoodeh, H., Keshavarz, A., Ghasemian, A., and Nasouhi, A., Subcooled Flow Boiling of Ethylene-Glycol/Water Mixture in an Inclined Channel with a Hot Spot: An Experimental Study, Int. Commun. Heat Mass Transf., vol. 78, pp. 285-294, 2016.

  16. Sur, A., Lu, Y., Pascente, C., Ruchhoeft, P., and Liu, D., Pool Boiling Heat Transfer Enhancement with Electrowetting, Int. J. Heat Mass Transf., vol. 120, pp. 202-217, 2018.

  17. Thiagarajan, S.J., Yang, R., King, C., and Narumanchi, S., Bubble Dynamics and Nucleate Pool Boiling Heat Transfer on Microporous Copper Surfaces, Int. J. Heat Mass Transf., vol. 89, pp. 1297-1315, 2015.

  18. Toit, C.G.D., Radial Variation in Porosity in Annular Packed Beds, J. Nuclear Eng. Design, vol. 238, no. 11, pp. 3073-3079, 2008.

  19. Wang, L., Khan, A.R., Erkan, N., Gong, H., and Okamoto, K., Critical Heat Flux Enhancement on a Downward Face Using Porous Honeycomb Plate in Saturated Flow Boiling, Int. J. Heat Mass Transf., vol. 109, pp. 454-461, 2017.

  20. Wang, W., Wu, F., Yu, Q., and Jin, H., Experimental Investigation of Titanium Tetrachloride in Pool Boiling Heat Transfer, Int. J. Heat Mass Transf., vol. 122, pp. 1308-1312, 2018.

  21. Wang, X., Liu, Z., and Li, Y., Experimental Study of Heat Transfer Characteristics of High-Velocity Small Slot Jet Impingement Boiling on Nanoscale Modification Surfaces, Int. J. Heat Mass Transf., vol. 103, pp. 1042-1052, 2016.

  22. Wang, Z., Peng, X.F., and Ochterbeck, J.M., Dynamic Bubble Behavior during Boiling in Bead-Packed Structures, Int. J. Heat Mass Transf., vol. 47, no. 22, pp. 4771-4783, 2004.

  23. Wolf, D.H., Incropera, F.P., and Viskanta, R., Jet Impingement Boiling, J. Adv. Heat Transf., vol. 23, pp. 1-132, 1993.

  24. Yakkatelli, R., Wu, Q., and Fleischer, A.S., A Visualization Study of the flow Dynamics of a Single Round Jet Impinging on Porous Media, J. Exp. Therm. Fluid Sci., vol. 34, pp. 1008-1015, 2010.

  25. Zhao, T., Coupled Heat and Mass Transfer of a Stagnation Point Flow in a Heated Porous Bed with Liquid Film Evaporation, Int. J. Heat Mass Transf., vol. 42, no. 5, pp. 861-872, 1999.

  26. Zhao, Z., Peles, Y., and Jensen, M.K., Water Jet Impingement Boiling from Structured-Porous Surfaces, Int. J. Heat Mass Transf., vol. 63, no. 15, pp. 445-453, 2013.

  27. Zhou, L., Wang, Z., and Du, X., Boiling Characteristics of Water and Self-Rewetting Fluids in Packed Bed of Spherical Glass Beads, J. Exp. Therm. Fluid Sci., vol. 68, pp. 537-544, 2015.

  28. Zupancic, M., Moze, M., and Gregorcic, P., Nanosecond Laser Texturing of Uniformly and Non-Uniformly Wettable Micro Structured Metal Surfaces for Enhanced Boiling Heat Transfer, J. Appl. Surface Sci., vol. 399, p. 480, 2016.

  29. Zupancic, M., Steinbucher, M., and Gregorcic, P., Enhanced Pool-Boiling Heat Transfer on Laser-Made Hydrophobic/Superhy-drophilic Polydimethylsiloxane-Silica Patterned Surfaces, J. Appl. Therm. Eng., vol. 91, pp. 288-297, 2015.


Articles with similar content:

EFFECT OF ULTRASONIC EMISSION ON BOILING AND NON-BOILING HEAT TRANSFER IN NATURAL AND FORCED CIRCULATION SYSTEMS
International Heat Transfer Conference 10, Vol.15, 1994, issue
Kaichiro Mishima, Itaru Michiyoshi, N. Aoki , Akimi Serizawa, Osamu Takahashi, M. Mukai, Zensaku Kawara
VISUALIZATION STUDY OF VAPOR FORMATION DURING POOL BOILING UNDER MODIFIED CONFINEMENT SURFACES
Journal of Flow Visualization and Image Processing, Vol.23, 2016, issue 1-2
Jason K. Ostanek
UNSUBMERGED JET IMPINGEMENT HEAT TRANSFER AT LOW LIQUID SPEED
International Heat Transfer Conference 10, Vol.6, 1994, issue
Paolo Di Marco, A. Magrini, Walter Grassi
ENHANCED BOILING HEAT TRANSFER ON SURFACES PATTERNED WITH MIXED WETTABILITY
International Heat Transfer Conference 16, Vol.4, 2018, issue
Biao Shen, Sumitomo Hidaka, Koji Takahashi, Yasuyuki Takata, Junichiro Shiomi, Tomosuke Mine, Masamichi Kohno, Masayuki Yamada, Gustav Amberg
HYSICAL PROPERTIES CHANGE AND HEAT TRANSFER ENHANCEMENT IN COMPACT-CHAMBER SPRAY COOLING USING HIGH-ALCOHOL SURFACTANT
International Heat Transfer Conference 16, Vol.14, 2018, issue
Hua Chen, Li-Jia Jiang, Wen-Long Cheng, Yu-Hang Peng