Heat transfer characteristics during pulsed spray cooling with R404A at different spray distances and back pressures

Abstract

In order to protect the epidermis from unwanted thermal damage more effectively in laser dermatology for treating darkly pigmented human skin, a novel method is presented here that combines the hypobaric pressure-modulatable technique and a new cryogen of R404A with a far lower boiling temperature than R134a. The influence of spray distance (5–50mm) and spray back pressure (1–100kPa) on heat transfer dynamics is systematically investigated. Lowering the pressure always reduces the minimum surface temperature (Tmin) over 50°C, and significantly enhances the maximum heat flux (qmax) by 1.9 times for short spray distances of 5mm. For longer distances over 20mm, Tmin can be first reduced, and qmax undergoes an initial increase and a subsequential decrease as the pressure is above 20kPa. Further lowering pressure below 20kPa makes Tmin increase inversely, and causes a sharp reduction of qmax. To obtain low Tmin and high qmax, an appropriate spray distance and pressure should be employed.