激光手术喷雾冷却中单个液滴蒸发特性
周致富, 辛慧, 陈斌, 王国祥. 激光手术喷雾冷却中单个液滴蒸发特性[J]. 中国激光, 2008, 35(6): 952.
Zhou Zhifu, Xin Hui, Chen Bin, Wang Guoxiang. Evaporation Characteristics of a Single Droplet in Laser Treatment of Port Wine Stain in Conjunction with Cryogen Spray Cooling[J]. Chinese Journal of Lasers, 2008, 35(6): 952.
[1] . . Prospective study of pulsed dye laser in conjunction with cryogen spray cooling for treatment of port wine stains in Chinese patients[J]. Dermatol Surg., 2003, 29(9): 909-915.
[6] . Stuart Nelson. Effect of spurt duration on the heat transfer dynamics during cryogen spray cooling[J]. Phys. Med. Biol., 2003, 48(14): 2169-2181.
[7] . W. Lanigan, S. M. Taibjee. Recent advances in laser treatment of port-wine stains[J]. British J. Dermatology, 2004, 151(3): 527-533.
[8] . M. Kelly, J. S. Nelson. Update on the clinical management of port wine stains[J]. Lasers Med. Sci., 2000, 15(4): 220-226.
[9] . Kelly, J. Stuart Nelson, Gary P. Lask et al.. Cryogen spray cooling in combination with nonablative laser treatment of facial phytides[J]. Arch. Dermatol., 1999, 135(6): 691-694.
[10] . Stuart Nelson. Influence of angle between the nozzle and skin surface on the heat flux and overall heat extraction during cryogen spray cooling[J]. Phys. Med. Biol., 2004, 49(10): N147-N153.
[11] . Ramirez-San-Juan, Guillermo Aguilar, Alia T. Tuqan et al.. Skin model surface temperatures during single and multiple cryogen spurts used in laser dermatologic surgery[J]. Lasers Surg. Med., 2005, 36(2): 141-146.
[12] Wim Verkruysse, Boris Majaron, Guillermo Aguilar et al.. Dynamics of cryogen deposition relative to heat extraction rate during cryogen spray cooling[C]. SPIE, 2000, 3907:37~48
[13] . . Measurement of heat flux and heat transfer coefficient during continuous cryogen spray cooling for laser dermatologic surgery[J]. IEEE J. Sel. Top. Quantum Electron., 2001, 7(6): 1013-1021.
[14] Bahman Anvari, Benjamin J. Ver Steeg, Thomas E. Milner et al.. Cryogen spray cooling of human skin: Effects of ambient humidity level, spraying distance, and cryogen boiling point[C]. SPIE, 1997, 3192:106~110
[15] . . Influence of nozzle-to-skin distance in cryogen spray cooling for dermatologic laser surgery[J]. Lasers Surg. Med., 2001, 28(2): 113-120.
[16] Boris Majaron, Guillermo Aguilar, Brooke Basinger et al.. Sequential cryogen spraying for heat flux control at the skin surface[C]. SPIE, 2001, 4244:74~81
[17] . . Effects of mass flow rate and droplet velocity on surface heat flux during cryogen spray cooling[J]. Phys. Med. Biol., 2003, 48(1): N1-N6.
[18] . L. Hubbard, V. E. Denny, A. F. Mills. Droplet evaporation: Effects of transients and variable properties[J]. Int. J. Heat Mass Transfer, 1975, 18(9): 1003-1008.
[19] . Aguilar, B. Majaron, W. Verkruysse et al.. Theoretical and experimental analysis of droplet diameter, temperature, and evaporation rate evolution in cryogenic sprays[J]. Int. J. Heat Mass Transfer, 2001, 44(17): 3201-3211.
[20] . E. Ranz, W. R. Marshall. Evaporation from drops[J]. Chem. Eng. Prog., 1952, 48(4): 141-146.
[21] Arthur H. Lefebre. Atomization and Sprays[M]. New York: Hemisphere Pub. Corp., 1989
[22] Victor L. Streeter, E. Benjamin Wylie. Fluid Mechanics[M]. New York: Mraw-Hill, 1998
[23] Chen Guobang, Bao Rui, Huang Yonghua. Cryogenic Engineering Technology: Data Volume[M]. Beijing: Chemical Industry Press, 2006
陈国邦,包锐,黄永华. 低温工程技术(数据卷)[M].北京:化学工业出版社,2006
[24] . P. Hindmarsh, A. B. Russell, X. D. Chen. Experimental and numerical analysis of the temperature transition of a suspended freezing water droplet[J]. Int. J. Heat Mass Transfer., 2003, 46(7): 1199-1213.
周致富, 辛慧, 陈斌, 王国祥. 激光手术喷雾冷却中单个液滴蒸发特性[J]. 中国激光, 2008, 35(6): 952. Zhou Zhifu, Xin Hui, Chen Bin, Wang Guoxiang. Evaporation Characteristics of a Single Droplet in Laser Treatment of Port Wine Stain in Conjunction with Cryogen Spray Cooling[J]. Chinese Journal of Lasers, 2008, 35(6): 952.