This paper addresses the potential to use Lotus leafbioinspired surfaces in applications involving heat transfer with phase change, namely pool boiling and spray impingement. Besides describing the role of bioinspired...This paper addresses the potential to use Lotus leafbioinspired surfaces in applications involving heat transfer with phase change, namely pool boiling and spray impingement. Besides describing the role of bioinspired topographical features, using an innovative technique combining high-speed visualization and time-resolved infrared thermography, surface durability is also addressed. Water is used for pool boiling and for spray impingement systems (simplified as single droplet impact), while HFE7000 is used in a pool boiling cooler for electronic components. Results show that surface durability is quickly compro- mised for water pool boiling applications, as the chemical treatment does not withstand high temperatures (T 〉 100 ℃) during long time intervals (3 h - 4 h). For HFE7000 pool boiling (depicting lower saturation temperature - 34 ℃), heat transfer en- hancement is governed by the topography. The regular hierarchical pattern of the bioinspired surfaces promotes the heat transfer coefficient to increase up to 22.2%, when compared to smooth surfaces, while allowing good control of the interaction mechanisms until a distance between micro-structures of 300 gm- 400 Ixm. Droplet impingement was studied for surface temperatures ranging between 60 ℃ - 100 ℃. The results do not support the use of superhydrophobic surfaces for cooling applications, but reveal great potential for other applications involving droplet impact on heated surfaces (e.g. metallurgy in- dustry).展开更多
基金The authors are grateful to Fundacao para a Ciencia e a Tecnologia (FCT) for partially financing the research under the framework of the project RECI/EMS- SIS/0147/2012 and for supporting Miguel Moura with a research fellowship. The authors also acknowledge FCT for financing the Post-Doc fellowship of Ana Sofia Moita (SFRH/BPD/109260/2015) and the PhD schol- arship (SFRH/BD/88102/2012) of Emanuele Teodori. The authors also thank to BIOAPPRONFS WETT - BIOMIMETIC APPROACHES OF NATURAL FUNCTIONAL SURFACES WITH HIERARCHICAL MICRO & NANO STRUCTURE AND THE EXTREME WETTABILITY, Project Marie Curie (FP7-People-2011-IRSES, Ref.: 295224). Finally, the authors acknowledge to the National Natural Science Foundation of China (Nos. 51275555 and 51325501), the 1111 Project (No. B16020)and Science and Tech- nology Development Project of Jilin Province (No. 20150519007JH).
文摘This paper addresses the potential to use Lotus leafbioinspired surfaces in applications involving heat transfer with phase change, namely pool boiling and spray impingement. Besides describing the role of bioinspired topographical features, using an innovative technique combining high-speed visualization and time-resolved infrared thermography, surface durability is also addressed. Water is used for pool boiling and for spray impingement systems (simplified as single droplet impact), while HFE7000 is used in a pool boiling cooler for electronic components. Results show that surface durability is quickly compro- mised for water pool boiling applications, as the chemical treatment does not withstand high temperatures (T 〉 100 ℃) during long time intervals (3 h - 4 h). For HFE7000 pool boiling (depicting lower saturation temperature - 34 ℃), heat transfer en- hancement is governed by the topography. The regular hierarchical pattern of the bioinspired surfaces promotes the heat transfer coefficient to increase up to 22.2%, when compared to smooth surfaces, while allowing good control of the interaction mechanisms until a distance between micro-structures of 300 gm- 400 Ixm. Droplet impingement was studied for surface temperatures ranging between 60 ℃ - 100 ℃. The results do not support the use of superhydrophobic surfaces for cooling applications, but reveal great potential for other applications involving droplet impact on heated surfaces (e.g. metallurgy in- dustry).
