呂鳳勇,男,上海套用技術大學城市建設與安全工程學院能源與動力工程專業副教授。
博士畢業於上海交通大學動力工程及工程熱物理專業,主要從事太陽能光熱界面蒸發、親水表面、超疏水表面和超滑表面(SLIPS)在流動和相變換熱領域的實驗、理論和套用研究。
基本介紹
開設的主要課程,研究方向,主要成就,學術獎勵,發明專利,近期科研論文,
開設的主要課程
《汽輪機原理》、《高等傳熱學》、《計算流體力學》等
研究方向
仿生表面的冷凝相變換熱、太陽能驅動光熱界面蒸發換熱、微納結構薄液膜蒸發相變換熱、光致變色。
主要成就
近年來一直對超疏水、超親水和SLIPS表面上的流動及相變換熱機理,以及在太陽能驅動光熱界面蒸發領域進行了大量研究工作。
在《Small》、《Advances in Colloid and Interface Science》、《ACS Applied Materials & Interfaces》、《Physics of Fluids》、《International Journal of Heat and Mass Transfer》、《Applied Energy》、《Energy》、《Energy Conversion and Management》、《Applied Thermal Engineering》、《International Communications in Heat and Mass Transfer》和《Applied Surface Science》等能源和傳熱以及材料界面領域國際期刊上,發表與太陽能驅動界面蒸發、超疏水表面、超親水表面及超光滑表面疏冰和冷凝換熱相關的研究論文。
已經發表學術論文22篇,發明專利4項,其中SCI期刊論文16篇(包括Elsevier高被引論文1篇和納米材料領域旗艦期刊1篇),EI期刊論文3篇,國際會議論文3篇(包括國際會議最佳海報獎1篇),國內會議論文1篇。
所發表的學術論文被引用600多次,擔任國際學術期刊《Energy》、《International Journal of Heat and Mass Transfer》和《Applied Thermal Engineering》學術審稿人,主持上海市自然科學基金面上項目1項。
學術獎勵
[1]Zhang Peng, Lv Fengyong. Award for Most Cited Energy Article from China. Energy. 2017.12. (高被引論文獎)
[2]Maeda Yota, Zhang Peng, Lv Fengyong, Shen Biao, Askounis Alexandros, Takata Yasuyuki, Orejon Daniel. Best Poster Presentation Award. 10th International Conference on Boiling and Condensation Heat Transfer. 2018.03. (國際會議最佳海報獎)
發明專利
[1]張鵬, 呂鳳勇. 一種重力熱管裝置的製備方法. 國家發明專利號:ZL201610590754.6
[2]呂鳳勇,林思帆,聶寒璐,程道來,趙芳,董智廣,解董軍. 一種強化珠狀冷凝換熱的SLIPS定向輸運傳熱管及其製備方法. 國家發明專利, CN202110831703.9,已公開
[3]呂鳳勇,林思帆,苗潔,鄒積明,聶寒璐,董振標,李臘圓,季愷康,於淼. 一種無微納結構光滑疏水表面的製備方法.國家發明專利, CN202111128282.X, 已公開
[4]程道來,聶寒璐,呂鳳勇,林思帆. 一種光熱轉換多孔結構的製備方法及太陽能蒸發裝置, CN202111225272.8, 已公開
近期科研論文
[1] Orejon D*, Maeda Y, Zhang P, Lv Fengyong, Takata Y. Nanorough Is Not Slippery Enough: Implications on Shedding and Heat Transfer. ACS Applied Materials & Interfaces, 2024, 16(1): 1779-1793.
[2] Miao J, Lv Fengyong*, Gulfam R, Zhao W. Synergistic effect of superhydrophilic skeleton decorated with hierarchical micro/nanostructures and graphene oxide on solar evaporation. Applied Energy, 2023, 350: 121779. (世界能源領域著名學術期刊)
[3] Gulfam R, Lv Fengyong, Zhang C*. Lubricant-infused iron palmitate surfaces with high durability and stable condensation heat transfer. Physics of Fluids, 2023, 35(6): 067109. (流體力學領域國際頂刊)
[4] Lv Fengyong*, Miao J, Hu J*, Orejon D*. 3D Solar Evaporation Enhancement by Superhydrophilic Copper Foam Inverted Cone and Graphene Oxide Functionalization Synergistic Cooperation. Small, 2023: 2208137. (WILEY出版社旗下的納米材料領域旗艦期刊)
[5] Lv Fengyong*, Lin S, Miao J, Wang C, Dong Z, Gulfam R*. Synergistic effect of helically-finned directional tracks and lubricant viscosity on droplet dynamics and condensation heat transfer of bioinspired slippery surfaces. International Journal of Heat and Mass Transfer, 2023, 203: 123757. (傳熱傳質領域頂級期刊)
[6] Jia H, Lv Fengyong*, Xu L, Kang Y, Wang Y, Xiao X*. CFD modeling of two-phase flow with surfactant by an arbitrary Lagrangian–Eulerian method. Chemical Engineering Research and Design, 2023, 191: 141-155.
[7] Lv Fengyong*, Zhao F, Cheng D, Dong Z, Jia H, Xiao X, Orejon D*. Bioinspired functional SLIPSs and wettability gradient surfaces and their synergistic cooperation and opportunities for enhanced condensate and fluid transport. Advances in Colloid and Interface Science, 2022, 299: 102564.
[8] Lv Fengyong*, Lin S, Nie H, Dong Z, Zhao F, Cheng D, Dong Z, Gulfam R*. Droplet dynamics and heat transfer enhancement via dropwise condensation on helically-finned hydrophobic tube. International Communications in Heat and Mass Transfer, 2022, 135: 106153-106112.
[9] Maeda Y, Lv Fengyong, Zhang P, Takata Y, Orejon D*. Condensate droplet size distribution and heat transfer on hierarchical slippery lubricant infused porous surfaces. Applied Thermal Engineering, 2020, 176: 115386.
[10] He D, Zhang P*, Lv Fengyong, Wang S, Shu D. Cryogenic quenching enhancement of a nanoporous surface. International Journal of Heat and Mass Transfer, 2019, 134: 1061-1072.(傳熱傳質領域頂級期刊)
[11] Zhang P*, Maeda Y, Lv Fengyong, Takata Y, Orejon D*. Enhanced Coalescence-Induced Droplet-Jumping on Nanostructured Superhydrophobic Surfaces in the Absence of Microstructures. ACS Applied Materials & Interfaces, 2017, 9(40): 35391-35403.
[12] Zhang P*, Lv Fengyong,Y, Askounis A, Orejon D, Shen B. Role of impregnated lubricant in enhancing thermosyphon performance. International Journal of Heat and Mass Transfer, 2017, 109: 1229-1238. (傳熱傳質領域頂級期刊)
[13] Lv Fengyong, Zhang P*, Orejon D, Askounis A, Shen B. Heat transfer performance of a lubricant-infused thermosyphon at various filling ratios. International Journal of Heat and Mass Transfer, 2017, 115, Part A: 725-736. (傳熱傳質領域頂級期刊)
[14] Lv Fengyong, Zhang P*. Drag reduction and heat transfer characteristics of water flow through the tubes with superhydrophobic surfaces. Energy Conversion and Management, 2016, 113: 165-176.
[15] Zhang P*, Lv Fengyong. A review of the recent advances in superhydrophobic surfaces and the emerging energy-related applications. Energy, 2015, 82(0): 1068-1087. (高被引論文)
[16] Lv Fengyong, Zhang P*. Fabrication and characterization of superhydrophobic surfaces on aluminum alloy substrates. Applied Surface Science, 2014, 321(0): 166-172.
[17] Orejon D, Maeda Y, Lv Fengyong, Zhang P, Takata Y. Optimization of structure on condensation on suherphydrophoibic surfaces (SHSs) and slippery lubricant-infused porous surfaces (SLIPS). 16th International Heat transfer Conference, IHTC-16; 2018; Beijing, China; 2018. p. 2425-2432.
[18] Orejon D, Maeda Y, Lv Fengyong, Zhang P, Takata Y. Effect of microstructures on superhydrophobic and slippery lubricant-infused porous surfaces during condensation phase-change. ASME 2018 16th International Conference on Nanochannels, Microchannels, and Minichannels, ICNMM 2018, June 10, 2018 - June 13, 2018; 2018; Dubrovnik, Croatia: American Society of Mechanical Engineers (ASME); 2018.
[19] Maeda Y, Lv Fengyong, Shen B, Askounis A, Zhang P, Takata Y, Orejon D. Effect of surface structure and oil viscosity during condensation on slippery lubricant-infused porous surfaces. 10th International Conference on Boiling and Condensation Heat Transfer; 2018; Nagasaki, Japan; 2018. (最佳海報獎)
[20] 舒釗, 鐘珂, 肖鑫*, 賈洪偉, 呂鳳勇, 常沙. 多孔納米基複合相變材料在建築節能中的套用進展. 化工進展, 2021, 40(z2) 265-278.
[21] 蔣玉婷, 張鵬*, 呂鳳勇. 採用易揮發工質對超親水泡沫銅的毛細性能表征. 上海交通大學學報, 2019, 53(11): 1294-1301.
[22] 呂鳳勇,姚嵐,鄭伊言,賀東嬌,張鵬*. 納米結構表面液氮淬火換熱特性研究. 工程熱物理學報, 2018, 39(5): 1027-1031.
[23] 呂鳳勇,張鵬*,盧宏健. 超親/疏水表面核態沸騰換熱特性研究. 工程熱物理年會, 2016.10.21-24, 北京.
