靳海川 - 北京航空航天大学 - 航空科学与工程学院

个人简介

靳海川，男，1988年出生，现任航空科学与工程学院人机与环境工程系副教授，航空科学与工程学院行政副院长。2018年在北京航空航天大学获得博士学位，期间受国家留学基金委资助在英国利兹大学公派留学。2018-2020年在本校从事博士后研究工作，出站留校任教。研究方向为高效传热传质，一方面是“热”的利用，另一方面是“冷”的防护。关于热的利用，主要成果包括澄清了太阳聚光下“Nanobubble”是不可能产生的结论；指出了纳米尺度稳态传热和宏观尺度非稳态传热现象等，在此方面获得国家自然基金青年项目支持，该研究方向具有太阳能，纳米流体和脉动热管等多学科交叉特点，研究光与颗粒的作用，颗粒对于气液表面张力的影响等关键科学问题。关于冷的防护，致力于解决军用运输机和军用无人机低能耗防除冰的迫切需求，通过制备超疏水材料实现主动除冰和被动防冰，有效降低飞机防除冰系统的代偿损失。教育经历 2012.9-2018.6 北京航空航天大学航空宇航科学与技术工学博士学位博士研究生毕业 2008.9-2012.9 北京航空航天大学航空宇航科学与技术工学学士学位大学本科毕业工作经历 2020.11-至今航空科学与工程学院北京航空航天大学副教授 2018.6-2020.11 航空科学与工程学院北京航空航天大学博士后

研究领域

高超声速飞行器热防护基于纳米材料的太阳能高效热利用基于超疏水材料的飞机防除冰技术

近期论文

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Steam generation in a nanoparticle-based solar receiver Experimental investigation of surface wettability induced anti-icing characteristics in an ice wind tunnel Cooling capacity optimization of hydrocarbon fuels for regenerative cooling 2D Numerical investigation of surface wettability induced liquid water flow on the surface of the NACA0012 airfoil Optimization Research on the Heat Transfer Capacity of an Aircraft Fuel Thermal Management System Experimental Study of Pulsating Heat Pipes Filled with Nanofluids under the Irradiation of Solar Simulator Simulation of and Experimental Research on Rivulet Model on Airfoil Surface Experimental Investigation on Solar–Thermal Conversion and Migration Characteristics of Nanofluids Numerical Investigation of Surface Wettability Induced Liquid Water Flow on the Surface of Wind Turbine Blades Experimental Research on the Selective Absorption of Solar Energy by Hybrid Nanofluids A comparative study of pool boiling heat transfer in different porous artery structures Air film evolution during droplet impact onto a solid surface Experimental Investigations on Steam Generation in Nanofluids under Concentrated Solar Radiation A reactive molecular dynamics study of hyperthermal atomic oxygen erosion mechanisms for graphene sheets Thermal performance of a 3D printed lattice-structure heat sink packaging phase change material New Aqueous solution for Direct Solar Absorption Refrigeration Systems Bubble formation in freezing droplets Nanoparticles enabled pump-free direct absorption solar collectors Analysis on the Aerodynamic Characteristics of a Continuous Whole Variable Camber Airfoil Solar photothermal conversion characteristics of hybrid nanofluids: An experimental and numerical study Nanoparticle-based solar vapor generation: An experimental and numerical study Experimental study of transparent oscillating heat pipes filled with solar absorptive nanofluids Structural design and verification of an innovative whole adaptive variable camber wing Stability and photo-thermal conversion performance of binary nanofluids for solar absorption refrigeration systems Experimental study on pool boiling in a porous artery structure Experimental photothermal performance of nanofluids under concentrated solar flux Solar evaporation via nanofluids: A comparative study A comparative study of direct absorption nanofluids for solar thermal applications Photothermal conversion efficiency of nanofluids: An experimental and numerical study