Influence of nozzle-to-skin distance in cryogen spray cooling for dermatologic laser surgery

Background and Objective: Cryogen sprays are used for cooling human skin du ring various laser treatments. Since characteristics of such sprays have no t been completely understood, the optimal atomizing nozzle design and opera ting conditions for cooling human skin remain to be determined. Materials and Methods: Two commercial cryogenic spray nozzles are character ized by imaging the sprays and the resulting areas on a substrate, as well as by measurements of the average spray droplet diameters, velocities, temp eratures, and heat transfer coefficients at the cryogen-substrate interface ; all as a function of distance from the nozzle tip. Results: Size of spray cones and sprayed areas vary with distance and nozzl e. Average droplet diameter and velocity increase with distance in the vici nity of the nozzle, slowly decreasing after a certain maximum is reached. S pray temperature decreases with distance due to the extraction of latent he at of vaporization. At larger distances, temperature increases due to compl ete evaporation of spray droplets. These three variables combined determine the heat transfer coefficient, which may also initially increase with dist ance, but eventually decreases as nozzles are moved far from the target. Conclusion: Sprayed areas and heat extraction efficiencies produced by curr ent commercial nozzles may be significantly modified by varying the distanc e between the nozzle and the sprayed surface.