一、近期科研项目: 1、主持上海市自然科学基金面上项目2项(No.24ZR1465800,No.19ZR1401700) 2、主持上海应用技术大学中青年教师科技人才发展基金-基础研究类项目1项(ZQ-2023-14) 3、参与2项国家自然科学基金面上项目(No.51376128,51176109)和1项国际(地区)合作与交流项目(No.51311140169)的研究工作
二、近期科研论文: [1]Lv Fengyong*, Miao J, Wang ZY, Hu J*, Orejon D*. Polyanionic Electrolyte Ionization Desalination Empowers Continuous Solar Evaporation Performance. Advanced Materials, 2024, 2410290. (SCI, IF=27.4, 材料科学领域国际顶级期刊, 中科院一区) [2]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. (SCI, IF=13.3, Top期刊, 中科院一区) (WILEY出版社旗下的纳米材料领域旗舰期刊) [3]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. (SCI, IF=11.2, Top期刊, 中科院一区) (世界能源领域著名学术期刊) [4]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. (SCI, IF=9.5, Top期刊, 中科院一区) [5]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. (SCI, IF=4.6, Top期刊, 中科院一区) (流体力学领域国际权威顶刊) [6]Xiao X, Feng Z, Jia H, Wang Y, Chen Q, Lv Fengyong. Research progress of thermoregulating textiles based on spinning of organic phase change fiber of energy storage. Textile Research Journal, 2023, 0(0): 1-32. [7]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. (SCI, IF=5.2, 中科院一区) (传热传质领域顶级期刊) [8]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. (SCI, IF=3.9, 中科院三区) [9]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. (SCI, IF=15.6, Top期刊, 中科院一区) [10]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. (SCI, IF=7, 中科院二区) [11]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. (SCI, IF=5.295, 中科院一区) [12]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. (SCI, IF=4.947, Top期刊, 中科院一区) (传热传质领域顶级期刊) [13]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. (SCI, IF=10.383, Top期刊, 中科院一区) [14]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. (SCI, IF=5.431, Top期刊, 中科院一区) (传热传质领域顶级期刊) [15]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. (SCI, IF=5.431, Top期刊, 中科院一区) (传热传质领域顶级期刊) [16]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. (SCI, IF=11.533, Top期刊, 中科院一区) [17]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. (SCI, IF=8.857, Top期刊, 中科院一区) (高被引论文) [18]Lv Fengyong, Zhang P*. Fabrication and characterization of superhydrophobic surfaces on aluminum alloy substrates. Applied Surface Science, 2014, 321(0): 166-172. (SCI, IF=7.392, Top期刊, 中科院一区) [19]Lv Fengyong*, Miao J, Hu J, Orejon D*. Enhanced Solar Evaporation by Superhydrophilic Copper Foam Graphene Coated Inverted 3D Cone. 10th Heat-Powered Cycles Conference; 2021; The University of Edinburgh, UK. [20]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. [21]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; Dubrovnik, Croatia: American Society of Mechanical Engineers (ASME). [22]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. (最佳海报奖) [23]舒钊, 钟珂, 肖鑫*, 贾洪伟, 吕凤勇, 常沙. 多孔纳米基复合相变材料在建筑节能中的应用进展. 化工进展, 2021, 40(z2) 265-278. [24]蒋玉婷, 张鹏*, 吕凤勇. 采用易挥发工质对超亲水泡沫铜的毛细性能表征. 上海交通大学学报, 2019, 53(11): 1294-1301. [25]吕凤勇,姚岚,郑伊言,贺东娇,张鹏*. 纳米结构表面液氮淬火换热特性研究. 工程热物理学报, 2018, 39(5): 1027-1031. [26]吕凤勇,张鹏*,卢宏健. 超亲/疏水表面核态沸腾换热特性研究. 工程热物理年会, 2016.10.21-24, 北京. 二、发明专利: [1]张鹏, 吕凤勇. 一种重力热管装置的制备方法. 国家发明专利号:ZL201610590754.6 [2]吕凤勇,林思帆,聂寒璐,程道来,赵芳,董智广,解董军. 一种强化珠状冷凝换热的SLIPS定向输运传热管及其制备方法. 国家发明专利, CN202110831703.9,已公开 [3]吕凤勇,林思帆,苗洁,邹积明,聂寒璐,董振标,李腊圆,季恺康,于淼. 一种无微纳结构光滑疏水表面的制备方法.国家发明专利, CN202111128282.X, 已公开 [4]程道来,聂寒璐,吕凤勇,林思帆. 一种光热转换多孔结构的制备方法及太阳能蒸发装置, CN202111225272.8, 已公开 三、学术奖励: [1]Zhang Peng, Lv Fengyong. Award for Most Cited Energy Article from China. Energy. 2017.12. (高被引论文奖) [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. (国际会议最佳海报奖) |
