Heat-transfer dynamics during cryogen spray cooling of substrate at different initial temperatures. Academic Article

abstract

• Cryogen spray cooling (CSC) is used to minimize the risk of epidermal damage during laser dermatologic therapy. However, the dominant mechanisms of heat transfer during the transient cooling process are incompletely understood. The objective of this study is to elucidate the physics of CSC by measuring the effect of initial substrate temperature (T0) on cooling dynamics. Cryogen was delivered by a straight-tube nozzle onto a skin phantom. A fast-response thermocouple was used to record the phantom temperature changes before, during and after the cryogen spray. Surface heat fluxes (q") and heat-transfer coefficients (h) were computed using an inverse heat conduction algorithm. The maximum surface heat flux (q"max) was observed to increase with T0. The surface temperature corresponding to q"max also increased with T0 but the latter has no significant effect on h. It is concluded that heat transfer between the cryogen spray and skin phantom remains in the nucleate boiling region even if T0 is 80 degrees C.

authors

• Aguilar-Mendoza, Guillermo

published proceedings

• Phys Med Biol

author list (cited authors)

• Jia, W., Aguilar, G., Wang, G., & Nelson, J. S.

citation count

• 21

complete list of authors

• Jia, Wangcun||Aguilar, Guillermo||Wang, Guo-Xiang||Nelson, J Stuart

publication date

• January 2004

publisher

• IOP Publishing  Publisher

published in

• Physics in Medicine and Biology  Journal

keywords

• Aerosol Propellants
• Algorithms
• Cold Temperature
• Cryotherapy
• Hot Temperature
• Laser Therapy
• Phantoms, Imaging
• Skin Physiological Phenomena
• Temperature
• Time Factors
• Water

PubMed Central ID

• 15656278

Digital Object Identifier (DOI)

• 10.1088/0031-9155/49/23/007

start page

• 5295

end page

• 5308

volume

• 49

issue

• 23

URL

• http://dx.doi.org/10.1088/0031-9155/49/23/007