Personal Profile |
Min Hua, Professor, Ph.D.From December 2012 to June 2013, she was invited to conduct academic exchange and visit in the Hong Kong Polytechnic University. She has the certificates of national registered safety engineer, safety evaluator and hazardous chemicals standardized test evaluator. She has undertaken and participated in more than 10 research projects, including National Natural Science Foundation of China, China Postdoctoral Science Foundation, National key research and development program, etc. In recent years, as the first author and corresponding author, she has published more than 10papers indexed by SCI and international conferences in the field of industrial safety and fire, and authorized 3 utility model patents as the first inventor. Her main research fields and directions are as follows: numerical simulation onfire evolution mechanism and fire extinguishing process, design, preparation and application of halon substitute products, safety and control technology of hazardous chemicals. |
Representative Research Projects/ Works / Papers |
SCIENTIFIC RESEARCH PROJECT: 1. National Natural Science Foundation of China, Physico-chemical coupling mechanism of superfine ammonium dihydrogen phosphate for inhibiting gasoline combustion (Grant No. 5170417), 2018.1-2020.12, PI. 2. China Postdoctoral Science Foundation, Study on thermodynamic mechanism of superfine ammonium phosphate dry powder inhibiting fire of liquid hydrocarbon (Grant No.2016M601796), PI. PUBLICATIONS: [1] Ta L, Wang Z, Zhang B, Jiang Y, Li Y, Wang Q,Hua M*,et al.Experimental investigation on shock wave propagation and self-ignition of pressurized hydrogen in different three-way tubes. Process Safety and Environmental Protection 2022;160:139–52. [2] Zhang C, Li H, Guo X, Li S, Zhang H, Pan X,Hua M*, et al. Experimental and theoretical studies on the effect of Al(OH)3on the fire-extinguishing performance of superfine ABC dry powder. Powder Technology 2021; 393:280–90. [3] Zhou N,Hua M*, Yu A, Wang W, Pan X, Wei C, et al. Effects of incompatible substances on thermal stability of dimethyl 2,2′-azobis(2-methylpropionate) (AIBME) in the application process. Journal of Loss Prevention in the Process Industries 2021;71. |