The synergetic effects of the surface wettability and the patterned nanostructure on boiling heat transfer enhancement

摘要

Engineering nano-structured surfaces with mixed/thermo-responsive wettability offer a new approach to improve the boiling performances of advanced thermal systems, such as the solar system and the heat dissipation systems in nuclear power plants, where more efficient cooling and higher safety limits are extremely desirable. In this study, five groups of surfaces: a) plain surfaces, b) nanofilm coated surfaces, c) patterned surfaces with superhydrophilic nanograss, d) patterned surfaces with superhydropho-bic nanograss, f) patterned surfaces with thermo-responsive wettable nanograss are investigated for their boiling performances. It is found that the nanofilm coated surfaces show improved maximum heat transfer coefficient (HTC_(max)) as well as critical heat flux (CHF) compared with the plain surface. The patterned surfaces shift the boiling curves to left, and the CHF increases with increasing nanograss cover density. The surfaces with thermo-responsive wettability, which responses to the external heating/cooling stimuli by gradually increasing or decreasing the wettability, show the most optimal CHF enhancement. This study serves as a proof-of-concept for efficient heat transfer through carefully fabricated nano-structured wettability-enhanced surfaces.