1. 2009.09-2013.06 中国石油大学（华东） 本科 学士 安全工程；
2. 2013.09-2018.06 中国科学技术大学 博士研究生 博士 安全科学与工程；
3. 2016.09-2017.09 Ulster University(阿尔斯特大学) 国家公派联合培养博士生。

防火隔热材料研发；
新能源火灾；
人工智能在火灾研究中的应用；
建筑火灾动力学；
油池火、射流火扩散燃烧行为；
固体可燃物火蔓延；
特殊边界条件（卷吸受限、低压、环境风、微重力等）火羽流行为。

1. 2018.06-2020.05 中国科学技术大学 博士后研究员；
2. 2020.05-2022.03 中国科学技术大学 特任副研究员；
3. 2022.03-2025.12 中国科学技术大学 副教授；
4. 2025.12-至今，中国科学技术大学 教授

获国家自然科学基金青年科学基金项目（B类）[原优秀青年科学基金]（2025）；
入选中国科学院青年创新促进会会员（2023）；
入选第六届中国科协青年人才托举工程(2021)；
中国安全生产协会第五届安全科技进步奖一等奖（排名第1，2024）；
公共安全科学技术学会青年科技奖（2024.7）；
中国职业安全健康协会青年科技奖（2024.12）。

腔室火灾动力学，国家自然科学基金青年科学基金项目（B类）[原优秀青年科学基金项目]，主持，执行期：2026-01至2028-12

大型综合体及大跨度厂房火灾演化规律与特征参数模型研究,国家重点研发计划项目子课题, 主持，执行期：2025-01 至 2027-12

建筑防火隔热门窗技术研究，横向项目，主持，执行期：2023.08-2028.09

上悬窗开口条件下腔室火灾演化与火羽流溢出特征研究：国家自然科学基金面上项目，主持，执行期：2023.01-2026.12

不同火源-壁面间距火羽流非对称卷吸行为与特征参数分布模型研究：国家自然科学基金青年科学基金项目，主持，执行期：2020.01-2022.12

村镇建筑火灾多因素耦合与致灾机制研究：国家重点研发计划子课题，主持，执行期：2018.12-2022.12

复杂边界条件耦合作用下易燃易爆危险品典型事故演化规律研究：广东省重点研发计划课题，主持，执行期：2019.10-2022.10

基于气凝胶的防火装饰一体化外保温技术：国家重点研发计划子课题，共同主持，执行期：2018.07-2021.06

平巷T字形交叉口角度对矿井巷道火灾烟气蔓延特性的影响机制与模型：国家重点实验室开放课题，主持，执行期：2019.01-2020.12

坡度隧道内贴壁火羽流诱导顶棚射流的火焰扩展与烟气逆流行为研究：国家重点实验室开放课题，主持，执行期：2018.09-2020.08

贴壁火羽流诱导倾斜顶棚射流的火焰扩展与温度分布规律：中国博士后科学基金面上项目，主持，执行期：2019.05-2020.03

大坡度隧道烟囱效应和机械排烟耦合机制研究，横向项目，主持，执行期：2020.06-2020.11

纵向通风隧道内新能源车辆火灾毒性、火焰特征及烟气控制研究：国家自然科学基金国际(地区)合作与交流项目，研究骨干，执行期：2022.01-2025.12

以第一作者/通讯作者在Combustion and Flame、Proceedings of the Combustion Institute、Applied Energy、International Journal of Heat and Mass Transfer等本领域著名期刊上发表SCI学术论文50余篇，参编国家标准及授权发明专利10余项：

[1] Yong Lu, Baojian Sun, Yong Yang, Yajun Huang, Xiaolei Zhang*, Longhua Hu, Experimental study on the accelerated flame spread behavior over electrical wire under electric currents, International Communications in Heat and Mass Transfer, Volume 167, Part A, September 2025, 109302.

[2] Hongyu Lu#, Jiang Lv#, Xiaolei Zhang*, Jong Moon Lee, Chun Sang Yoo, Suk Ho Chung, Longhua Hu*, Volumetric heat release, fuel-air mixing and turbulent dissipation of vertically-downward turbulent nonpremixed jet flames under sub-atmospheric pressures, Combustion and Flame, Volume 277, July 2025, 114161.

[3] Shixiang Liu, Xiaolei Zhang*, Yilin Yuan, Jiang Lv, Longhua Hu*, Combustion characteristics and entrainment behavior of rectangular jet flame in cross airflow, Energy, Volume 320, 1 April 2025, 135375.

[4] Jingru Zheng, Xiaolei Zhang*, Suk Ho Chung, Longhua Hu*, Combustion characteristics and primary particle size of soot in ethylene/propylene-air coflow flames under dynamic pressure rise environment, Combustion and Flame, Volume 276, June 2025, 114113.

[5] Yunsong Li, Xiepeng Sun, Yuhang Chen, Longhua Hu*, Xiaolei Zhang*, Experimental and numerical studies on flame radius, temperature profile and heat flux of axi-symmetric ceiling fires under various sub-atmospheric pressures, International Journal of Thermal Sciences, 211 (2025) 109697.

[6] Xiaolei Zhang; Yujie Lin; Xu Fang; Jiang Lv; Yuhang Chen*; Longhua Hu*; Flame morphology of pool fire in cross airflows: A theoretical analysis and generalized relations for comprehensive data of fire sizes, fuels and flow speeds, Proceedings of the Combustion Institute, Volume 40, Issues 1-4, 2024, 105721.

[7] Xiepeng Sun; Yu Han; Fei Ren; Xiaolei Zhang*; Fei Tang, Longhua Hu*; An experimental study of the liquid fire evolution inside the compartment under the facing wind condition, Proceedings of the Combustion Institute, Volume 40, Issues 1-4, 2024, 105661.

[8] Xiepeng Sun, Jiang Lv, Xiaolei Zhang*, Fei Tang*, Longhua Hu*, A global evolution of the downward jet flame behavior: From the laminar to the turbulent, Combustion and Flame, Volume 272, February 2025, 113906

[9] Jingru Zheng; Xiaolei Zhang*; Suk Ho Chung; Longhau Hu*; Experimental study on flame height and radiation characteristics in jet flames with ammonia/hydrocarbon mixture fuels, Combustion and Flame, 2024, 265: 113517.

[10] Yuhang Chen; Yanli Miao; Shangqing Tao; Xiaolei Zhang*; Fei Tang; Longhua Hu*; Flame interactions and burning rates of discrete liquid fuel arrays under crossflow, Combustion and Flame, Volume 269, November 2024, 113645.

[11] Xiepeng Sun, Yu Han, Xiang Fang, Xiaolei Zhang*, Fei Tang, Longhua Hu*, Experimental study on the transitional behavior of the room fire under sub-atmospheric pressures, Chemical Engineering Journal, Volume 499, 1 November 2024, 155947

[12] Xiepeng Sun; Fei Ren; Xiaotao Chen; Yu Han; Xiaolei Zhang*; Fei Tang; Congling Shi; Longhua Hu*; Temperature evolution within fire compartment, external flame structure characteristic and merging behavior with multiple-openings, Applied Energy, 2024, 373: 123855.

[13] Yuxuan Ma, Jiang Lv, Zhengda Guo, Yan Gu, Yajun Huang, Xiaolei Zhang*, Longhua Hu*, Pressure dependence of controlling parameters for heat-mass transfer in buoyant-flow aided upward flame spread over vertical electrical wires, International Journal of Heat and Mass Transfer, Volume 240, 1 May 2025, 126653.

[14] Xiang Fang, Xiaolei Zhang*, Fei Ren, Longhau Hu, Temperature evolution and flame behavior inside a ceiling-vented compartment with different fire source locations under the effect of wind, International Communications in Heat and Mass Transfer, 2024, 157: 107762.

[15] Yuhang Chen; Yanli Miao; Shangqing Tao; Quan Li; Yilin Yuan; Xiaolei Zhang*; Longhua Hu*; Flame structure and dynamics in pool fires of different geometries: Experimental and numerical investigation, Energy, 2024, 304: 131996.

[16] Shixiang Liu, Xiaolei Zhang*, Xu Fang, Lonahua Hu*, Experimental study on the radiation characteristic of downward turbulent diffusion jet flame, Energy, Volume 312, 15 December 2024, 133679

[17] Xiepeng Sun; Jiwei Yi; Yu Han; Xiaolei Zhang*; Fei Tang; Longhua Hu*; Facade flame depth coming out from the fire compartment opening subject the external sideward wind, Energy, 2024, 304: 132093.

[18] Yuhang Chen, Qiang Wang, Yanli Miao, Shangqing Tao, Lingyi Di, Yuxuan Ma*, Fei Tang, Xiaolei Zhang*, Experimental study of flame morphological behaviors and wall heat flux profiles from an adjacent fire with different separation distances in a longitudinally ventilated tunnel, Tunnelling and Underground Space Technology, Volume 153, November 2024, 106025.

[19] Min Peng, Zhenkun Wu, Wenxuan Miao, Dongzi Qin, Ding Li, Yuyang Ming, Yun Zhou, Yajun Huang*, Xiaolei Zhang*, Flame extension length and temperature profile beneath ceiling induced by endwall-attached fire inside compartment with lateral openings, Journal of Building Engineering, 2024, 92: 109654.

[20] Xiang Fang; Xiaolei Zhang*; Xinlong Tan; Jiang Lv; Longhua Hu; Experimental investigation on thermal radiation of compartment fire under fuel-controlled condition, Thermal Science and Engineering Progress, 2024, 53: 102679.

[21] Sun, X.P., Zhang, X.L.*, Lv, J., Chen, X.T., Hu, L.H.*, 2023, Experimental study on the buoyant turbulent diffusion flame height of various intermittent levels, Applied Energy 351: 121699.

[22] Sun, X.P., Hu, L.H., Lv, J., Fang, X., Chen, X.T., Zhang, X.L.*, 2023, Experimental study on the heat flux profile upon the building facade of the window-ejected fire plume, International Journal of Heat and Mass Transfer 214: 124391.

[23] Chen, Y.H., Zhang, X.L.*, Kuang, C., Lin, Y.J., Huang, Y.J., Hu, L.H., 2023, An experimental study on burning rates of dual tandem hydrocarbon pool fires of various separation distances subjected to crossflow, International Journal of Heat and Mass Transfer 215: 124472.

[24] Sun, X.P., Zhang, X.L.*, Lv, J., Chen, X.T., Fang, X., Yi, J.W., Hu, L.H., 2023, Experimental study on the heat losses of the fuel combustion inside the compartment, International Journal of Heat and Mass Transfer 216: 124565.

[25] Fang, X., Zhang, X.L.*, Yi, J.W., Sun, X.P., Tang, F., Ren, F., Hu, L.H., 2023, Experimental study on vertical temperature of facade fire plume ejected from compartment constrained by adjacent single sidewall, International Journal of Thermal Sciences 193: 108470.

[26] Lin, Y.J., Zhang, X.L.*, Ling, X.D., Kuang, C., Yu, A.F.*, Hu, L.H., 2024, Experimental study of downstream local heat flux of pool fires under relatively strong cross flows, International Journal of Thermal Sciences 196: 108710.

[27] Sun, X.P., Zhang, X.L.*, Lv, J., Chen, X.T., Fang, X., Tang, F., Ren, F., Hu, L.H., 2023, Transverse and lateral temperature profiles of the window-ejected thermal plume along the facade, Journal of Building Engineering 76: 107303.

[28] Zhang, X.L., Hu, L.H.*, Zhang, X.C., Sun, X.P., Rein, Guillermo, 2023, Two dimensional temperature distributions in a ceiling jet generated by a finite line-source fire: An experimental study, Proceedings of the Combustion Institute 39 (3): 4145-4154.

[29] Zhang, X.L., Yang, Y., Sun, X.P., Ren, F., Fang, X., Hu, L.H.*, 2023, A reduced-scale experimental investigation of facade flame behavior ejected from a top-hung window of fire compartment, Proceedings of the Combustion Institute 39 (3): 3673-3681.

[30] Fang, X., Zhang, X.L.*, Hu, L.H.*, 2023, Transitional behavior of vertical flame height of horizontally-oriented rectangular-source jet fires, Proceedings of the Combustion Institute 39 (3) 3969-3980.

[31] Lv, J., Zhang, X.L.*, Liu, S.X., Lu, H.Y., Ma, Y.X., Hu, L.H., 2022, Flame morphology of horizontal jets under sub-atmospheric pressures: Experiment, dimensional analysis and an integral model, Fuel 307: 121891.

[32] Fang, X., Zhang, X.L.*, Yuen, R.K.K., Hu, L.H., 2022, Diffusion flame side sag behavior in cross winds: Experimental investigation and scaling analysis, Fuel 310: 122252.

[33] Xiong, H.Y., Zhang, X.L.*, Miao, Y.L., Hu, L.H., 2022, Characterization of the flame spread behavior and flammability of heterogeneous fuels using a measured B number, Fuel 308: 121919.

[34] Chen, Y.H., Zhang, X.L.*, Miao, Y.L., Hu, L.H.*, 2022, Effects of cross airflow and burner distance on temperature profile and flame morphology of dual tandem pool fires, Fuel 317: 123220.

[35] Liu, S.X., Zhang, X.L.*, Fang, X., Hu, L.H.*, 2022, Experimental study on tilting behavior and blow out of dual tandem jet flames under cross wind, Process Safety and Environmental Protection 158: 1-9.

[36] Zhang, X.L., Hu, L.H.*, Zhang, X.C., Ren, F., 2021, Experimental investigation and analysis of flame height transition and air entrainment of near-wall rectangular-source fires at various distances, Proceedings of the Combustion Institute 38 (3): 4505-4513.

[37] Zhang, X.L., Hu, L.H.*, Zhang, X.C., 2021, Flame lengths in two directions underneath a ceiling induced by line-source fire: An experimental study and global model, Proceedings of the Combustion Institute 38 (3): 4561-4568.

[38] Zhang, X.L., Fang, X., Hu, L.H.*, 2021, Buoyant turbulent diffusion flame heights of free-, wall- and corner air entrainment conditions: Experiments and global model based on mirror approach, Fuel 303: 121338.

[39] Zhang, X.L.*, Lin, Y.J., Shi, C.L.*, Zhang, J.P., 2021, Numerical simulation on the maximum temperature and smoke back-layering length in a tilted tunnel under natural ventilation, Tunnelling and Underground Space Technology 107: 103661.

[40] Xiong, H.Y., Zhang, X.L.*, Chen, Y.H., 2021, An experimental study on upward flame spread over corrugated cardboard used in underground logistic transportation: Influence of grain orientation and thickness, Tunnelling and Underground Space Technology 118: 104171.

[41] Li, Y.S., Zhang, X.L.*, Sun, X.P., Zhu, N., 2021, Maximum temperature of ceiling jet flow in longitudinal ventilated tunnel fires with various distances between fire source and cross-passage, Tunnelling and Underground Space Technology 113: 103953.

[42] Zhang, X.L., Fang, X., Miao, Y.L., Hu, L.H.*, 2020, Experimental study on pulsation frequency of free-, wall- and corner buoyant turbulent diffusion flames, Fuel 276: 118022.

[43] Zhang, X.L., Shi, C.L.*, Hu, L.H.*, 2020, Temperature profile of impingement flow in the corner between wall and inclined ceiling induced by gaseous fuel jet flame, Fuel 259: 116232.

[44] Zhang, X.L., Hu, L.H.*, Wu, L., Kostiuk, L.W., 2019, Flame radiation emission from pool fires under the influence of cross airflow and ambient pressure, Combustion and Flame 202: 243-251.

[45] Zhang, X.L., Hu, L.H.*, Delichatsios, M.A., Zhang, J.P., 2019, Experimental study and analysis on flame lengths induced by wall-attached fire impinging upon an inclined ceiling, Proceedings of the Combustion Institute 37 (3): 3879-3887.

[46] Zhang, X.L., Hu, L.H.*, Delichatsios, M.A., Zhang, J.P., 2019, Experimental study on flame morphologic characteristics of wall attached non-premixed buoyancy driven turbulent flames, Applied Energy 254: 113672.

[47] Zhang, X.L., Hu, L.H.*, Sun, X.P., 2019, Temperature profile of thermal flow underneath an inclined ceiling induced by a wall-attached fire, International Journal of Thermal Sciences 141: 133-140.

[48] Zhang, X.L., Hu, L.H.*, Zhang, X.C., Tang, F., Jiang, Y.*, Lin, Y.J., 2017, Flame projection distance of horizontally oriented buoyant turbulent rectangular jet fires, Combustion and Flame 176: 370-376.

[49] Zhang, X.L., Hu, L.H.*, Wang, Q., Zhang, X.C., Jiang, Y., 2017, Soot free length fraction of buoyant turbulent non-premixed jet flames in normal- and a sub-atmospheric pressure, Applied Thermal Engineering 110: 111-114.

[50] Zhang, X.L., Hu, L.H.*, Wang, Q., Zhang, X.C.*, Gao, P.*, 2015, A mathematical model for flame volume estimation based on flame height of turbulent gaseous fuel jet, Energy Conversion and Management 103: 276-283.