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Personal information
Name: Xuefeng Huang
Office: Room 536, 6th BuildingNorth, Hangzhou Dianzi Campus, Xiasha, Hangzhou
Current occupation: School of Science,Hangzhou Dianzi University
Telephone: (86)-571-86878677
E-Mail: xuefenguang@hdu.edu.cn
EDUCATION
Sep. 1999-July.2003, B.S. in Processequipment and control, Zhengzhou University, P. R. China
Sep. 2004-July 2008, Ph. D in Powerengineering and Engineering Thermophysics, Zhejiang University, P. R.China
Professional Working Experience
2008-present, Professor, School ofScience, Hangzhou Dianzi University, Hangzhou, P. R. China
2012-2013, Visiting Scholar, Universityof Washington, America
2015-2016, Training, Information centerof the Ministry of science and technology
2016-2017, Visiting Scholar, Universityof Washington, America
RESEARCH INTEREST
My research interests focus onCombustion at multiple scales, laser levitation and diagnosis incombustion at present. And I also do some practical engineering workssuch as development and application of novel energetic materials andnanofluid fuels, instruments and equipment, micro energy systemtransfer.
Selected Publications
(1)Fengting Hou, Shengji Li, Yue Wangand Xuefeng Huang (*), Laser-Induced Ignition and Combustion ofIndividual Aluminum Particles Below 10 μm by Microscopic High-SpeedCinematography. Processes, 2020, 8 (3), 280.
(2)Shengji Li, Hongzhe Du, Zhu Zhuo,Yibin Lu, Xuefeng Huang (*), Dispersion Stability, PhysicalProperties, and Electrostatic Breakup of Surfactant-LoadedAluminum/n-Decane Nanofluid Fuel: Nanoparticle Size Effect. EnergyFuels, 2020, 34 (1): 1082-1092.
(3)Wen Ao, Peijin Liu, Huan Liu, ShixiWu, Bowen Tao, Xuefeng Huang, Larry K.B. Li, Tuning the agglomerationand combustion characteristics of aluminized propellants via a newfunctionalized fluoropolymer. Chemical Engineering Journal, 2020,382: 122987.
(4)Shengji Li, Zhu Zhuo, Lanjiao He,Xuefeng Huang (*), Atomization characteristics of nano-Al/ethanolnanofluid fuel in electrostatic field. Fuel, 2019, 236: 811-819.
(5)Shengji Li, Xinxin Pan, YukunJiang, Shuhang Chang, Xiao Jin, Yanjing Yang, Xuefeng Huang (*),Yanhui Guo, Ignition and Combustion Behaviors of High EnergeticPolyhedral Boron Cluster. Propellants Explos. Pyrotech. 2019, 44,1-9.
(6)Zhu Zhuo, Shengji Li, Yibin Lu,Xuefeng Huang (*), Synergetic effects of nanoparticle concentrationand electrification on the breakup performance of nanofluid fuel.International Journal of Heat and Mass Transfer 2019, 137: 940–950.
(7)Hong Liang, Xiaoliang Hu, XuefengHuang, and Jiangrong Xu, Direct numerical simulation of multi-modeRayleigh-Taylor instability with high Reynolds numbers. Physics ofFluids, 2019, 31: 112104.
(8)Sheng-ji Li, Xue-feng Huang (*),Dong-hui Zhou, Experiments and Numerical Calculations onLaser-induced Ignition of Single Micron-sized Aluminum Fuel Particle,Propellants Explosives Pyrotechnics, 2017, 42 (5): 523-531.
(9)Xuefeng Huang (#), Shengji Li,Ignition and combustion characteristics of jet fuel liquid filmcontaining graphene powders at meso-scale, Fuel, 2016, 177: 113-122.
(10)Xuefeng Huang (#), Shengji Li,Xiongfei Zheng, Shu Yang, Yanhui Guo, Combustion Mechani** of a NovelEnergetic Fuel Candidate Based on Amine Metal Borohydrides, Energy &Fuel, 2016, 30: 1383-1389.
(11)Sheng-ji Li, Xue-feng Huang (*),The Manipulation and Combustion of Carbon-Based Micro Particles byOptical Tweezers,InternationalJournal of Optomechatronics, 2015, 9(1): 35-47.
(12)Xue-feng Huang (#), Sheng-ji Li,Guang-hua Zheng, Guan-jun Zhao, Jiang-rong Xu, Wei-chih Wang, Designand Characteristics of Dual-Core Photonic Crystal Fiber DopplerDifferential Velocimeter, International Journal of Optomechatronics,2015, 9(3): 195-210.
(13)Xiongfei Zheng, Xuefeng Huang (#),Yuanzhou Song, Xiaohua Ma, Yanhui Guo, Aluminumborohydride-ethylenediamine as hydrogen storage candidate. RSCAdvances, 2015, 5, 105618-105621.
(14)Xue-Feng Huang (#), Sheng-Ji Li,Near-Field Nanofluid Concentration Measurement by Rayleigh ParticleScattering Bragg Grating Evanescent Wave. International Journal ofOptomechatronics, 2014, 8(2): 100-113.
(15)Huang Xue-Feng (#), Li Sheng-Ji,Zhou Dong-Hui, Zhao Guan-Jun, Wang Guan-Qing, Xu Jiang-Rong, Trap,ignition, and diffusion combustion characteristics of active carbonmicro-particles at a meso-scale studied by optical tweezers. ActaPhys. Sin., 2014, 63(17): 1-9.
(16)Xue-feng Huang (#), Yan Liu, DanLuo, et al., Wavelet ****ysis on vibration modal frequencymeasurement at a low level of strain of the turbine blade using FBGsensors, Measurement Science and Technology, 2010, 21 (1):015305-1-13.
(17)Xue-Feng Huang (#), Zhe-min Chen,Li-Yang Shao et al. Design and Characteristics of Refractive IndexSensor based on Thinned and Microstructure Fiber Bragg Grating,Applied Optics, 2008, 47 (4): 504-511.
(18)X.F. Huang (#), D.R. Sheng, K.F.Cen, H. Zhou. Low-cost Relative Humidity Sensor based onThermoplastic Polyimide-coated Fiber Bragg Grating, Sensors andActuators B: Chemical, 2007, 127 (2): 518–524.
SUPPORTING FUNDING
(1) Research and development ofautomatic membrane filtration intelligent bacteria collectionoperation module, 2016YFF0103203, 2016-2020, supported by theNational Key Research and Development Program of China.
(2) Study on the mechani** oflevitation combustion and particle interaction of micro / nanoaluminum, No. 51976050, 2020-2023, supported by the National NaturalScience Foundation of China.
(3)Fundamental research on controlling micro-combustion and gasificationof micro fuel particles based on array optical tweezers, No.51276053, 2013-2016, supported by the National Natural ScienceFoundation of China.
(4) Study on integrated micro-pumpsystem of laser driving, control and test based on photonic crystalfiber, No. 51006029, 2011-2013, supported by the National NaturalScience Foundation of China.
(5) Study on atomization and microcombustion characteristics of liquid fuel based on silicon-based MEMSmulti-channel EFI, No. LY15E060006, 2015-2016, supported by theNatural Science Foundation of Zhejiang Province.
Patents Granted
(1) Huang Xuefeng, Ma Jiaojiao, LuYujie, Ji Xiaochuan, Wu Qifan, Micro combustion temperaturedifference generator based on stable combustion of porous media,China, ZL 201610313905.3, 2017.
(2) Li Shengji, Huang Xuefeng, Microcombustion system of micro particular fuel group based on digitalholographic optical tweezers, China, ZL 201310369495.0, 2015.
(3) Huang Xuefeng, Zheng Guanghua, LiShengji, Xu Xingmei, Xu Jiangrong, Method and device of temperaturesensor based on interference of dual-core photonic crystal fiber,China, ZL201310067450.8, 2015.
(4) Li Shengji, Huang Xuefeng, Microcombustion, gasification, levitation, ignition, imaging and detectionsystem of single particular fuel, China, ZL 201310370302.3, 2015.
(5) Huang Xuefeng, Li Shengji, WangGuanqing, Liu Guanqing, et al. Doppler velocity measurement methodand device for MEMS based on embedded dual-core photonic crystalfiber, China, ZL201310025600.9, 2014.
(6) Huang Xue-feng, Li Shengji, Luo Danet al. A micropump driving device based on photonic crystal fiber,China, ZL 201020598051.6, 2013.