Measurement of Heat Flux and Heat Transfer Coefficient During Continuous Cryogen Spray Cooling for Laser Dermatologic Surgery
نویسندگان
چکیده
Cryogen spray cooling (CSC) has been used for selective epidermal cooling of human skin during laser therapy of patients with port wine stain (PWS) birthmarks. Unfortunately, current commercial CSC devices do not provide optimal cooling selectivity and, therefore, provide insufficient epidermal protection for some PWS patients. To assist in the development of improved atomizing nozzle designs, a reliable method to quantify the CSC heat flux is needed. We introduce a novel method to determine the heat flux ( ) and heat transfer coefficient ( ) at the surface of a sprayed object, based on measurements of steady-state temperature gradients along a thin copper rod during continuous cryogen spraying. For an atomizing nozzle of inner diameter = 0.7 mm, we found that varies from 15 to 130 W/cm2 and increases nonlinearly from 15 000 to 35 000 W/m2 K in the explored range of surface temperatures ( , from 32 to 7 C). Values of obtained with a wider diameter nozzle ( = 1.4 mm) are approximately twice as large than those of the narrow nozzle. The corresponding values of are significantly higher (32 000–40 000 W/m2 K) and almost independent of within the same temperature range. When combined with fast flashlamp photography (FFLP) of spray shapes and sprayed surfaces, the results demonstrate that the liquid cryogen layer, as deposited by finely atomized sprays from narrower nozzles, can significantly impair . In contrast, the higher-momentum impact of coarser sprays from wider nozzles reduces the thickness of the liquid layer in the impact area and/or enhances convection within it, yielding a larger .
منابع مشابه
Dynamic Behavior of Cryogen Spray Cooling: Effect of Spray Distance
Cryogen spray cooling (CSC) is used to minimize the risk of epidermal damage during laser dermatologic surgery. During CSC, skin surface is cooled by a short spurt of refrigerant R134a with boiling point of –26.2 C. Since R134a is volatile in open atmospheric conditions, the atomized liquid droplets undergo continuous evaporation as they fly in air, leading to a lost momentum and mass. Therefor...
متن کاملInfluence of spraying distance and post-cooling on cryogen spray cooling for dermatologic laser surgery
Cryogen spray cooling (CSC) is used to minimize the risk of epidermal damage in various laser dermatological procedures such as treatment of port wine stain birthmarks and hair removal. However, the spray characteristics and combination of CSC and heating (laser) to obtain optimal treatments have not yet been determined. The distance between the nozzle tip and the skin surface for commercial de...
متن کاملRadial Heat Transfer Dynamics during Cryogen Spray Cooling
Cryogen spray cooling (CSC) is a heat extraction process that protects the epidermal layer during skin laser surgery of port wine stain (PWS) birthmarks and other specific dermatoses. The objective of the present work is to investigate temporal and radial variations on the heat transferred at the surface of a skin model during CSC. A fast-response thermal sensor is used to measure temperature a...
متن کاملEffects of mass flow rate and droplet velocity on surface heat flux during cryogen spray cooling.
Cryogen spray cooling (CSC) is used to protect the epidermis during dermatologic laser surgery. To date, the relative influence of the fundamental spray parameters on surface cooling remains incompletely understood. This study explores the effects of mass flow rate and average droplet velocity on the surface heat flux during CSC. It is shown that the effect of mass flow rate on the surface heat...
متن کاملIntermittent cryogen spray cooling for optimal heat extraction during dermatologic laser treatment.
Fast heat extraction is critically important to obtain the maximal benefit of cryogen spray cooling (CSC) during laser therapy of shallow skin lesions, such as port wine stain birthmarks. However, a film of liquid cryogen can build up on the skin surface, impairing heat transfer due to the relatively low thermal conductivity and higher temperature of the film as compared to the impinging spray ...
متن کامل