师资队伍

王喜世


  

个人履历

中国科学技术大学火灾科学国家重点实验室

助教、讲师(1997-2003)
中国科学技术大学力学专业博士(1999-2002)
中国科学技术大学火灾科学国家重点实验室

副研究员(2004.1-2018.6)

中国科学技术大学火灾科学国家重点实验室

教授(2018.7-)
火灾实验室
实验条件部执行主任(2005-2010)、

清洁高效灭火研究室主任(2010-)

实验室主任助理(2014-2019)

日本东京大学访问学者(2002)
香港科技大学博士后(2003-2005)
香港理工大学访问学者(2009)
教育部新世纪优秀人才计划(2007)

  

研究方向

清洁高效灭火技术原理及应用

清洁高效抑爆技术原理及应用

清洁高效易燃易爆危化品洗消技术原理及应用

激光多参数流场测量方法及应用

  

主讲课程


热灾害实验诊断技术(2000-)本科生专业课
(课程编号:23208301;学时:60;学分:2.5)
灭火技术原理及应用(2011-),研究生专业课
(课程编号:SE15223.01;学时:60;学分:3)


  

学位/职称

工学博士

中国科学技术大学教授

博士生导师

  

办公室电话

(+86)551 63606437

E-mail: wxs@ustc.edu.cn


个人获奖

陈林义基金“孺子牛精神奖”(2021),个人

2019年度安徽省教学成果奖 一等奖(2019),排名1/3
2018年度北京市科学技术奖三等奖(2018),排名6/15
第六届中国消防协会科学技术创新奖一等奖(2016),排名1/8
安徽省科学技术奖一等奖(2010),排名5/10
安徽省第六届自然科学优秀学术论文一等奖(2010),排名第一
科技部“科技奥运优秀工作者”(2008),个人
“王宽成育才奖”一等奖(2007),个人
安徽省第五届自然科学优秀学术论文一等奖(2007),排名第一
第五届亚澳火灾科学与技术学术会议大会论文二等奖(2001)排名第一

 

学术任职

国际期刊编委:Case Studies in Thermal Engineering (2017-)、Fire Science Research Journal (2019-)

广东省核电热灾害防治工程技术研究中心工程技术委员会 委员,2021.1.1-2023.12.31

全国专业标准化技术委员会第十分技术委员会第三届委员,2021.1.1-2024.12.31

应急管理部天津消防研究所特约研究员,2021.11-

舰船(军方)标准化委员会委员(2020-)
中国建筑学会建筑综合防火技术委员会建筑消防给水与灭火系统专业委员会 常务委员(2016-)
国际燃烧学会 终身会员(2014-)
中国消防协会石油化工防火专业委员会 委员(2013-)
全国消防标准化技术委员会固定灭火系统分技术委员会委员(2011-)
国际火灾安全科学学会(IAFSS) 终身会员(2011-)
江西省消防工程技术研究中心专家委员会委员(2010-)
国家基金委工程与材料科学部《安全科学与工程学科发展战略研究报告》(2015-2030) 起草人之一
国家自然科学基金委基金项目 通讯评审人
学术期刊及重要学术会议 审稿人: PCI, JHM, Fuel, IJHMT, ATE, IJTS, ETFS, FSJ, BAE, SS, CST, JLPPI, CSITE, FT, 燃烧科学与技术, 安全与环境学报等; IAFSS, AOSFS, ISHPMIE, 中国工程热物理学会燃烧学分会等.

 

科研项目

锂离子电池热失控机理与防控关键技术研究,

教育部省部共建协同创新中心项目,研究骨干,执行期:2021.1-2022.12

预装式细水雾灭火系统、细水雾涡扇炮车、细水雾涡扇炮灭火机器人系统以及通用技术条件标准,

国网南瑞集团北京南瑞怡和环保科技有限公司,项目负责人,执行期:2021.12-2022.6

地铁车辆细水雾灭火系统性能测试及方案优化,沈阳二一三电子科技有限公司,

项目负责人,执行期:2021.9.15-2022.10.5

泡沫灭火剂的灭火有效性研究,国网南瑞集团北京南瑞怡和环保科技有限公司,

项目负责人,执行期:2020.6-2021.12

城市公共安全应急若干关键技术基础问题研究,

安徽高校协同创新项目,项目执行负责人,执行期:2020.1-2022.12

障碍物遮挡条件下细水雾灭火的主控机制及其临界条件预测方法研究,

国家基金面上项目,项目负责人,执行期:2019.1-2022.12

大型飞机库智能定向高速抑爆灭火技术及应用示范,

国家重点研发计划课题,研究骨干,执行期:2018.7-2021.6

细水雾与天然气泄漏射流相互作用动力学特性及其对灭火抑爆的影响机制:

国家基金面上项目,项目负责人,执行期:2016.1-2019.12
高效复合防排烟技术和关键装置,

国家重点研发计划课题,专题负责人,执行期:2016.7-2019.6

城市地下空间复杂边界条件下火灾动力学行为研究:

国家基金重点专项基金项目,项目执行负责人,执行期:2014.1-2018.12

受限空间油气燃爆的动力学演化及其影响机制:

化学品安全控制国家重点实验室开放课题,项目负责人,执行期:2015.11-2017.10

苯胺、甲醇泄漏应急处置剂研制:

总装备部工程设计研究总院科技支撑计划项目,项目负责人,执行期:2015.6-2016.6

多作用力耦合驱动的高层建筑火灾烟气输运规律与控制:

973项目课题,子课题负责人,执行期:2012.01-2016.12

基于物联网技术的交通枢纽综合体火灾防控关键技术研究:

国家科技支撑计划项目课题,专题负责人,执行期:2011.10-2013.12

液氨泄漏事故应急处置关键技术及装备研发:

安徽省应用技术创新基金,项目负责人,执行期:2011.11~2013.11
细水雾抑制瓦斯、煤尘爆炸的机理研究:

国家自然科学基金面上项目,主持,执行期:2008.1-2010.12

以布达拉宫为代表的高原古建筑火灾安全技术研究:

国家科技支撑计划课题,专题负责人,执行期:2006.10-2008.12

细水雾抑制瓦斯/煤尘复合爆炸机理研究:

教育部新世纪优秀人才资助计划项目,主持,执行期:2008.1-2010.12

XXX装备火灾防治共性关键技术研究:

国防科技工业技术基础项目,课题负责人,执行期:2008.1-2009.12

多参数耦合的火灾演化与水灭火过程相互作用机理及规律研究:

国家基金重点项目,研究骨干,执行期:2006.1-2009.12

典型危化品事故现场处置技术与装备研发:

国家科技支撑计划项目专题,研究骨干,执行期:2006.11-2008.12

多组分细水雾与混合气体灭火原理:

973项目课题,子课题负责人,执行期:2002.4-2007.3

清洁高效多组份细水雾与气体灭火技术研究:

中国科学院知识创新工程方向性项目,研究骨干,执行期:2001.8-2003.12

细水雾与火焰相互作用的机理研究:

国家自然科学基金项目, 研究骨干,执行期:1999.1-2001.12

 

代表性论著

(*者为通讯作者,仅统计近10)

期刊论文:

[1] Tong Liu, Jian Hu, Qi Tang, Xiaolong Zhu, Xishi Wang*. Mitigating overcharge   induced thermal runaway of large format lithium ion battery with water mist, Applied   Thermal Engineering, 2021, 197: 117402

[2] Tong Liu, Jian Hu, Changfa Tao, Xiaolong Zhu*, Xishi Wang*. Effect of parallel   connection on 18650-type lithium ion battery thermal runaway propagation and   active cooling prevention with water mist. Applied Thermal Engineering,   184 (2021) 116291

[3] Guochun Li, Chuanyu Pan, Yangpeng Liu, Xiaolong Zhu*,   Xiaomin Ni, Xiangdi Zhao, Guoxin Chen, Xishi   Wang*. Evaluation of the effect of water mist on propane/air mixture   deflagration: Large-scale test. Process Safety and Environmental   Protection, 2021, 147: 1101-1109

[4] Yangpeng Liu, Jiaxing Shen, Jing Ma, Guochun Li,   Zihao Zhao, Xiaomin Ni, Xishi Wang*.   Laser-based measurement and numerical simulation of methane-air jet flame   suppression with water mist. Process Safety and Environmental   Protection, 148 (2021) 1033–1047

[5] Chuanyu Pan, Xishi   Wang*, Guochun Li, Jiangyue Zhao, Meilin Liu, Yangpeng Liu, Xiaolong Zhu.   Influences of multi vents’ numbers and distributions on vented   ethanol-gasoline vapor deflagrations. Process Safety and Environmental   Protection, 152 (2021): 164–177

[6] Chuanyu Pan, Xishi   Wang*, Guochun Li, Yangpeng Liu, Yong Jiang. Influences of a square and   circular vent on gasoline vapor explosions and its propagation: Comparative   experimental study. Case Studies in Thermal Engineering,   27(2021)101225

[7] Mehdi Stiti, Yangpeng Liu, Hadrien Chaynes,   Fabrice Lemoine, Xishi Wang,   Guillaume Castanet. Fluorescence lifetime measurements applied to the   characterization of the droplet temperature in sprays. Experiments in Fluids,   2021, 62:174

[8] Jiaxing Shen and Xishi Wang*. Substrate counts: Quantitative effects of surface   roughness on fingering pattern and rim shape of an impacting drop. Physics   of Fluids, 2020, 32(9): 093313

[9] Chuanyu Pan, Guochun Li, Xishi Wang*. Effects of top vent locations and gasoline volumes   on vented gasoline vapor explosion in a closed small scale vessel. FUEL,   2020, 277: 118226

[10] Yangpeng Liu, Xishi Wang*, Tong Liu, Jing Ma, Guochun Li, Zihao Zhao.   Preliminary study on extinguishing shielded fire with water mist. Process   Safety and Environmental Protection, 2020, 141: 344-354

[11] Tong Liu, Changfa Tao, Xishi Wang*. Cooling control effect of water mist on thermal   runaway propagation in lithium ion battery modules. Applied Energy, 2020267: 115087-

[12] Guochun Li, Xishi   Wang*, Xiangdi Zhao. Experimental study on explosion characteristics of   ethanol-gasoline blended fuels. Journal of Loss Prevention in the Process   Industries, 2020, 64: 104083-

[13] T. Liu, Y.   P. Liu, X. S. Wang*, X.X. Kong, G.   C. Li. Cooling control of thermally-induced 18650 lithium ion battery thermal   runaway with water mist. Energy Conversion and Management,   2019, 199: 111969-

[14] Haiyong Cong, Xishi Wang*, Xiangxiao Kong, Hongli Xu. Effects of fire source   position on smoke extraction efficiency by natural ventilation through a   board- coupled shaft during tunnel fires. Proceedings of the Combustion   Institute, 2019, 37 (2019) 3975–3984

[15] Guochun Li, Xishi   Wang*, Hongli Xu and Yangpeng Liu. Experimental study on the mitigation   of ethanol gasoline-air mixture explosion by heptafluoropropane. Journal   of Hazardous Materials, 2019, 378: 120711

[16] Yangpeng Liu, Xishi Wang*, Pei Zhu, Guochun Li, Xiaomin Ni, Jun Zhang.   Experimental study on gas jet suppressed by water mist: a clean control   technique in natural gas leakage incidents. Journal of Cleaner Production.   2019, 223: 163-175

[17] X.X. Kong, X.S.   Wang*, H.Y. Cong, Y.P. Liu, J.P. Zhu. Temperature profile and flame   extension length of a ceiling impinging round jet fire in an inclined tunnel.   International   Journal of Thermal Sciences 2019, 137: 526–533

[18] Changfa Tao, Xishi Wang*, Peiyong Ma, Pei Zhu. An experimental investigation   on mass burning rate of small hydrocarbon pool fires with different lip   heights. Journal of the Chinese Institute of Engineers. 2019,42: 169-174

[19] Zhigang Wang, Xishi Wang†*, Yanqing Huang, Changfa Tao, Heping Zhang.   Experimental study on fire smoke control by water mist curtain in a channel. Journal   of Hazardous Materials, 2018, 342: 231-241.

[20] Xiaomin Ni, Shaogang Zhang, Zhong Zheng, Xishi Wang. Application of   water@silica core-shell particles for suppressing gasoline pool fires. Journal   of Hazardous Materials, 2018, 341: 20-27.

[21] Xishi   Wang*, Qiong Tan, Zhigang Wang, Xiangxiao Kong, Haiyong Cong. Preliminary   study on fire protection of window glass by water mist curtain. International   Journal of Thermal Sciences. 2018, 125: 44-51

[22] haiyong Cong, Xishi Wang*, Pei Zhu, Tonghui Jiang, Xiaojing Shi. Influence of   board size and position on smoke extraction efficiency by natural ventilation   through a board-coupled shaft during tunnel fires. Applied Thermal Engineering.   2018, 128: 614-624

[23] Yang Zhou, Rongwei Bu, Junhui Gong, Xiaonan   Zhang, Chuangang Fan, Xishi Wang*.   Assessment of a clean and efficient fire-extinguishing technique: Continuous   and cycling discharge water mist system. Journal of Cleaner Production, 2018,   182: 682-693

[24] Xishi   Wang*, Pei Zhu, Hongli Xu, Minghao Fan. Experimental study on the   Autoignition Characteristics of Pure and Oil-Impregnated Transformer   Insulating Paper board, Journal of Thermal Analysis and   Calorimetry, 2017, 127:2489–2497

[25] H. Y. Cong, X.   S. Wang*, P. Zhu, T. H. Jiang, X. J. Shi. Improvement in smoke extraction   efficiency by natural ventilation through a board-coupled shaft during tunnel   fires. Applied Thermal Engineering, 2017, 118: 127-137

[26] Pei Zhu, Xishi   Wang†*, Guochun Li, Yangpeng Liu, Xiangxiao Kong, Yanqing Huang, Xiangdi   Zhao, Jiwu Yuan. Experimental study on the interaction of water mist spray   with a high velocity gas jet. Fire Safety Journal. 2017, 93:   60-73

[27] Changfa Tao, Yaping He, Yuan Zhuang, Yejian   Qian, Xiaozhang Cheng, Xishi WANG*.   The investigation of flame length of buoyancy-controlled gas fire bounded by   wall and ceiling. Applied Thermal Engineering. 2017, 127: 1172-1183

[28] Zhen Wang, XiaoHong Sun, Qi Xue, YiLe Wang,   YongLe Qi, Xishi Wang*. An optical   fiber-folded distributed temperature sensor based on Raman backscattering. Optics   and Laser Technology, 2017, 93:224-227

[29] Zhigang Wang, Xishi Wang*, Pei Zhu, Pingping Chen, Xiangdi Zhao, Heping Zhang.   Experimental study on the vapor explosion process of a water drop impact upon   hot molten-ghee surface. Journal of Loss Prevention in the Process   Industries, 2017, 49: 839-844

[30] Hongli Xu, Xishi   Wang*, Yuan Li, Pei Zhu, Haiyong Cong, Wenxi Qin. Experimental   investigation of methane/coal dust explosion under influence of obstacles and   ultrafine water mist. Journal of Loss Prevention in the Process   Industries, 2017, 49: 929-937

[31] Shaogang Zhang, Xiaomin Ni, Mei Zhao, Ruifang   Zhang, Xishi Wang. Simultaneous   Application of Bromofluoropropene and Water Mist for Suppressing Wood Crib   Fires in a Confined Space. Atomization and Sprays, 2017, 27:   465-476

[32]Shuai Wang, XiaoHong Sun, Cong Wang, Wei Liu, Xishi WANG*. Liquid Refractive Index   Sensor Based on 2-D 10-fold Photonic Quasicrystal. J. Phys. D_Appl. Phys.,   2017, 50: 365102-365108

[33] Changfa Tao, Xishi Wang, Peiyong Ma. An experimental investigation of flame   length of alcohol and N-heptane pool fires under air cross condition. Experimental   Heat Transfer. 2017, 30: 489-499

[34] P. Zhu, X.   S. Wang*, Y. P. He, C. F. Tao, X. M. Ni. Flame characteristics and   burning rate of small pool fires under downslope and upslope oblique winds. Fuel,   2016, 184:725-734

[35] Mei Zhao, Xiaomin Ni, Shaogang Zhang, Wei Cao,   Yu Guan,Canjun Liang, Xishi Wang   and Heping Zhang, Improving the Performance of Fluoroprotein Foam in   Extinguishing Gasoline Pool Fires with Addition of Bromofluoropropene, Fire   and Material, 2016,40: 261-272.

[36] Meijuan Lan, Xishi Wang*, Pingping Chen and Xiangdi Zhao**. Effects of surface   tension and wood surface roughness on impact splash of a pure and   multi-component water drop, Case Studies in Thermal Engineering,   2016, 8: 218–225

[37]Xishi   Wang*, Pei Zhu, Yuan Li,   Xiaomin Ni, Minghao Fan. Effect of Low Ambient Air Pressure on Spray   Characteristics of Water Mist. Experimental Thermal and Fluid Science,   2015, 66: 7-12.

[38] Pei Zhu, Xishi   Wang* and Changfa Tao, Experiment study on the burning rates of ethanol   square pool fires affected by wall insulation and oblique airflow. Experimental   Thermal and Fluid Science, 2015, 61: 259-268.

[39] Changfa Tao, Xishi Wang*, Xiaonan Zhang. Effects of transverse air flow on   mass loss rate of alcohol pool fires in an inclined wind tunnel. Journal   of Civil Engineering and Management, 2015, 21(6): 798-803.

[40] Dong-Sheng Ding, Wei Zhang, Zhi-Yuan Zhou, Shuai   Shi, Guo-Yong Xiang, Xi-Shi Wang,   Yun-Kun Jiang, Bao-Sen Shi* and Guang-Can Guo. Quantum Storage of Orbital   Angular Momentum Entanglement in an Atomic Ensemble, Physical Review Letters,   2015, 114: 050502.

[41] Pei Zhu, Xishi   Wang*, Zhigang Wang, Haiyong Cong, Xiaomin Ni. Experimental and numerical   study on attenuation of thermal radiation from large scale pool fires by   water mist curtain, J. of Fire Sciences, 2015, 33(4)   269-289.

[42] Xiaomin Ni, Shaogang Zhang, Mei Zhao, XishiWang, KaiqianKuang. Experimental   studies on the extinction of methane/air cup-burner flames with gas-solid   composite particles. Fire Safety Journal, 2015, 76:1-8.

[43] Pei Zhu and   Xishi Wang*. Numerical Study on the Effects of Ambient Air Pressure on   Water Mist Characteristics. Energy Procedia, 2015, 66:169-172.

[44] Meijuan Lan, Xishi Wang*, Pei Zhu, PingPing Chen. Experimental study on the   dynamic process of a water drop with additives impact upon hot liquid fuel   surfaces. Physics Procedia, 2015, 66: 173-176.

[45] Liu Bing and Wang   Xishi*. Flame radiant heat flux measurement based on bi-material   cantilever. International Journal of Thermal Sciences, 2014, 79: 60-66.

[46] Xu Zhang, Xiao-Hong Sun, Hui Huang, Xishi Wang, Yongqing Huang, and   Xiaomin Ren. Optical absorption in InP/InGaAs/InP double-heterostructure   nanopillar arrays for solar cells. Applied Physics Letters, 2014,104:   061110.

[47] Ni Xiaomin, Zheng Zhong, Wang Xishi, Zhang Shaogang, Zhao Mei.   Fabrication of hierarchical zeolite 4A microspheres with improved adsorption   capacity to bromofluoropropene and their fire suppression performance, Journal   of Alloys and Compounds, 2014, 592:135-139.

[48] Zhou Zhi-Yuan, Ding Dong-Sheng,   Jiang Yun-Kun, Li Yan, Shi Shuai, Wang   Xi-Shi, Shi Bao-Sen, Orbital angular momentum light frequency conversion   and interference with quasi-phase matching crystals. Optics Express, 17(22):   20298-20310.

[49] Ding Dong-Sheng, Zhang Wei, Zhou   Zhi-Yuan, Shi Shuai, Pan Jian-Song, Xiang Guo-Yong, Wang Xi-Shi, Jiang Yun-Kun, Shi Bao-Sen, Guo Guang-Can. Toward   high-dimensional-state quantum memory in a cold atomic ensemble. Physical   Review A, 2014, 90(4).

[50] Xiaomin Ni, Xishi Wang, Shaogang Zhang, and Mei Zhao. Experimental study on   the performance of transition metal ions modified zeolite particles in   suppressing methane/air coflowing flame on cup burner. Journal of Fire Sciences,   2014, 32: 417-430

[51] Meijuan LAN and Xishi WANG*. A case study on the dynamic process of water drop   impacting upon heated wood surface. Case Studies in Thermal Engineering,   2014, 2:23-28.

[52] Changfa Tao, Yaping He, Yuan Li, Xishi Wang*. Experimental study on   the burning rate of alcohol pool fires in a downward-inclined wind tunnel. Journal   of Hazardous Materials, 2013, 260: 552-562.

[53] Hongli Xu,Yuan Li, Pei Zhu, Xishi Wang*, Heping Zhang.   Experimental study on the mitigation via an ultra-fine water mist of   methane/coal dust mixture explosions in the presence of obstacles. Journal   of Loss Prevention in the Process Industries, 2013, 26:815-820.

[54] C.F. Tao and X. Cai, Xishi Wang*. Experimental   Determination of Atmospheric Pressures Effects on Flames from Small Scale   Pool Fires. Journal of Fire Sciences, 2013,31(5) 387-394.

[55] H. L. Xu, P. Zhu, Y. Li, Xishi Wang* and H. P. Zhang. Effects   of obstacle on methane-coal dust hybrid explosion and its mitigation with   ultra-fine water mist. J. of Applied Fire Science, 23(2):143-155, 2013-2014

[56] ChangfaTao, Xishi Wang*, Xiaonan Zhang. The effects of wind pressure on mass   burning rates of alcohol pool fires in an inclined wind tunnel. J.   of Applied Fire Science, 23(2):131-142, 2013-2014.

[57] Huang Xianjia, Chen Pingping, Lan   Meijuan, WangXishi* and Liao Guangxuan. Experimental Study of the Impact of   Water Drops with Additive on Wood Surfaces, Procedia Engineering,   2013, 62: 852-858.

[58] Y. Li, H. L. Xu and X. S. Wang*. Experimental study on   the influence of initial pressure on explosion of methane-coal dust mixtures,   Procedia   Engineering, 2013, 62:980-984.

[59] Hongli Xu, Xishi Wang*, Rui Gu and Heping Zhang. Experimental study on   characteristics of methane-coal dust mixture explosion and its mitigation by   ultra-fine water mist, Journal of Engineering for Gas Turbines   and Power, 2012, 134(6): 061401-061406

[60] Liang TianShui, Liao GuangXuan, Lo   SiuMing, WangXishi*. Study on Fire Extinguishing Performance of ultra fine   water mist in a cup burner, SCIENCE CHINA Technological Sciences,   2012, 55(7): 1982-1987.

[61] Liang Tianshui, Lo Siuming, Wang   Xishi, Liao Guangxuan. A numerical study of the fire-extinguishing   performance of water mist in an opening machinery space. Procedia Engineering,   2012, 31: 734-738.

[62] Xin Huang, Xishi Wang*, Guangxuan Liao, Characterization of an Effervescent   Atomization Water Mist Nozzle and Its Fire Suppression Tests, Proceedings   of the Combustion Institute, 2011, 33: 2573–2579.

[63] Ping-ping Chen and Xi-shi Wang*, 2011,Experimental study   of water drop impact on wood surfaces, International Journal of Heat & Mass   Transfer, 54: 4143–4147.

[64]X. K. Xiao, B. H.   Cong, X.S. Wang, K.Q. Kuang,   Richard K. K. Yuen, G.X. Liao, 2011, On the Behavior of Flame Expansion in Pool   Fire Extinguishment with Steam Jet.Journal of Fire Sciences,   29(4):339-360.

[65] 马静, 胡健, 刘美麟, 王喜世*, 室内准稳态压力火灾烟气沉降模型的完善和实验验证. 火灾科学, 2020.6

[66] 姜童辉, 王喜世*, 纵向通风对隧道竖井排烟影响的试验研究,火灾科学, 2018, 27(1): 14-22

[67] 黄妍清,王喜世*,朱培,王志刚. 封闭空间内细水雾去除微细粉尘的影响因素实验研究,热科学与技术, 2018, 17: 138-144

[68] 谭琼, 王喜世*,孔祥晓,黄妍清,刘洋鹏. 火灾场景中细水雾幕对玻璃保护效果实验研究,火灾科学, 2017, 26: 129-135

[69] 李媛,王喜世*,蓝美娟,朱培,细水雾幕抑制火灾烟气的实验研究,燃烧科学与技术2014,   20(3):263-269

[70] 陶常法,王喜世*,张笑男. 变风向通风对池火火焰长度影响的实验研究. 燃烧科学与技术, 2013,   3:261-267.

[71] 蓝美娟,李媛,王喜世*. 单液滴撞击受热枫桦木炭化表面的实验模拟研究. 化工学报. 2013, 64(8):2807-2812.

[72] 秦文茜,王喜世*,谷睿,许红利. 超细水雾作用下瓦斯爆炸压力及升压速率研究. 燃烧科学与技术2012, 18(1):90-95.

[73] 黄咸家, 王喜世, 杨天培, 李森, 廖光煊. 受限空间内细水雾抑制熄灭火焰过程中一氧化碳生成率的研究. 燃烧科学与技术2012, 18(2):175-180.

[74] 张笑男,王喜世*,周洋,陶常法. 机械通风条件下细水雾抑制酒精火的实验研究. 安全与环境学报, 2012,   12(5):154-159.

 

专著/教材:

[1] Xishi WANG, WATER MIST, 科学出版社,2019

[2] 王喜世,《中国消防手册》第一卷第一篇(第五章、第九章),上海科学技术出版社,2010

[3] 廖光煊,王喜世,秦俊,热灾害实验诊断方法,合肥:中国科大出版社,2003.

 

国际会议论文:

[1]       Yangpeng Liu, Stiti   Mehdi, Castanet Guillaume*, Chaynes Hadrien, Lemoine Fabrice, Xishi Wang. Characterization of the   droplet temperature in sprays using laser-induced fluorescence and   time-correlated single-photon counting. ICLASS   2021, 15th Triennial International Conference on Liquid Atomization and Spray   Systems, Edinburgh, UK, 29 Aug. - 2 Sept. 2021

[2]       Xishi Wang, Research progresses on fire suppression and explosion   mitigation with water mist. International   Conference on Fire Science and Technology, Nov. 15-18, 2019, Langfang, Hebei,   China. Invited speaker.

[3]       Guochun Li, Xishi   Wang*, Xiangdi Zhao. Experimental study on explosion characteristics of   ethanol-gasoline blended fuels. Asia   Pacific Symposium on Safety 2019, 19-21 Sep. 2019, Dalian, China

[4]       Jing Ma, Yanqing   Huang, Xishi Wang*, Xiaomin Ni. Preliminary study on dust particle removal by   water mist: a safe and clean method for dust explosion prevention. Asia Pacific Symposium on Safety 2019,   19-21 Sep. 2019, Dalian, China.

[5]       P. Zhu, X. S. Wang*,   Y. P. He. Ignition and combustion characteristics of natural ester insulation   power transformers fluids and risk ranking. IFireSS 2019 – 3nd International Fire Safety Symposium,   Ottawa, Ontario, Canada, June 5-7, 2019

[6]       X.X. Kong, X.S.   Wang*, P. Zhu, Y. P. Liu, J.P. Zhu. The tilt angle and flame trajectory of   buoyant jet diffusion flames under upslope and downslope wind conditions. Proceedings of the Ninth International   Seminar on Fire and Explosion Hazards (ISFEH9), 21–26 April, 2019,   Saint-Petersburg, Russia

[7]       H. Y. Cong, X. S. Wang*, T. H. Jiang. Velocity   measurement of a ceiling-jet along a horizontal tunnel with a flat ceiling   and natural ventilation. 10th International Symposium on   Measurement Techniques for Multiphase Flow. Hong Kong SAR, China,   2017.

[8]       Yangpeng Liu, Xishi Wang*, Pei Zhu, Guochun Li,   Xiangdi Zhao, Jiwu Yuan. PIV measurement of the interaction of water mist   spray with a tilted gas jet. 10th International Symposium on   Measurement Techniques for Multiphase Flow. Hong Kong SAR, China,   2017.

[9]       Pei Zhu, Xishi Wang*, Zhigang Wang, Haiyong   Cong, Xiaomin Ni. Experimental study on transformer oil pool fire suppression   by water mist, 10th Asia-Oceania Symposium on Fire Science and Technology,   2015, Tsukuba, Japan

[10]    H. Y. Cong, X. S. Wang*, P. Zhu, Z. G. Wang, T.   H. Jiang, Q. Tan. Influence of different longitudinal wind on natural   ventilation efficiency with vertical shaft under different fires in tunnel, 10th   Asia-Oceania Symposium on Fire Science and Technology, 2015, Tsukuba,   Japan.

[11]    Zhigang Wang , Pei   Zhu, Pingping Chen , Xiangxiao Kong & XishiWang*Experimental study   on the vapor explosion process of a drop impact on hot molten-ghee surface. 11th   International Symposium on Hazards, Prevention, and Mitigation of Industrial   Explosions, 2016, Dalian

[12]    H. L. Xu, Y. Li, P.   Zhu, W. X. Qin, X. S. Wang*. Experimental   study on suppression of methane explosion containing obstacles with   ultra-fine water mist. The 11th International Symposium on Fire   Safety Science, Christchurch, New Zealand, 9-14, February, 2014.

[13]    Xiaomin NI, W. K.   Chow, Shaogang Zhang, Mei Zhao, Zhong Zheng and Xishi Wang. Combining Bromofluoropropene with Water Mist for   Suppressing Deep Seated Wood Crib Fires. The 11th International Symposium on Fire   Safety Science, Christchurch, New Zealand, 9-14, February, 2014.

[14]    Meijuan Lan, Xishi Wang*, Pei Zhu, PingPing Chen.   Experimental study on the dynamic process of a water drop with additives   impact upon hot liquid fuel surfaces. 12th International Conference on   Combustion and Energy Utilisation (12th ICCEU), Lancaster, UK, 29   September to 3 October, 2014.

[15]    Pei Zhu and Xishi Wang*. Numerical Study on the   Effects of Ambient Air Pressure on Water Mist Characteristics. 12th   International Conference on Combustion and Energy Utilisation (12th   ICCEU), Lancaster, UK, 29 September to 3 October, 2014.

[16]    Pei Zhu, Xishi Wang*, Xiangdi Zhao. Numerical   study on the interaction of water mist with a Methane diffusion flame. Proceedings   of the International Conference on Heat Transfer and Fluid Flow,   Prague, Czech Republic, August 11-12, 2014.

[17]    Mei-Juan LanXishi WANG*. The dynamic process of droplet   impacting on heated wood surface. The   4th Asian Symposium on Computational Heat Transfer and Fluid Flow, Hong   Kong, 3-6 June, 2013.

[18]    B. Liu and Xishi Wang*. Contrastive Experimental   Research of Bi-material Microcantilevers Designed for Radiant Heat Flux   Measurement, The 4th Asian Symposium on   Computational Heat Transfer and Fluid Flow, Hong Kong, 3-6 June, 2013.

[19]    Hongli Xu, Changfa   Tao, Xishi Wang*. Experimental   Study on combustion characteristics of transformer oil and its suppression   with water mist. The 4th Asian   Symposium on Computational Heat Transfer and Fluid Flow, Hong Kong, 3-6   June, 2013.

[20]    Changfa Tao, Yuan   Li, Xishi Wang*. The Mass Loss   Rate of Alcohol Pool Fires Influenced by Pan Shape in an Inclined Wind   Tunnel. The 4th Asian Symposium on   Computational Heat Transfer and Fluid Flow, Hong Kong, 3-6 June, 2013

[21]    Hongli XU, Xishi Wang*, Rui GU and Heping ZHANG,“Experimental study   on characteristics of methane-coal dust mixture explosion and its mitigation   by ultra-fine water mist,” Proceedings of the8th   ASME/JSME Thermal Engineering Joint Conference (AJTEC 2011), March 13-17,   2011Honolulu Hawaii.

[22]    Tao Changfa, Xishi Wang*, Cai Xin, Combustion   characteristics of pool fires under low atmospheric pressures, Proceedings of ASME International   Mechanical Engineering Congress and Exposition (IMECE2011), November   11-17, 2011, Denver, USA.

[23]      Changfa Tao, Xin Cai and Xishi Wang*, Experimental   study on the effects of ambient pressure conditions on spray characteristics   of water mist, Proceedings of the 2nd International   Conference on Mechanic Automation and Control Engineering (MACE 2011), July 15-17, 2011, Inner   Mongolia, China.

[24]Xiaonan Zhang, Xishi Wang*,Yang Zhou, “Numerical simulation of bus   fire,” Proceedings ofthe International Conference on Remote   Sensing, Environment and Transportation Engineering (RSETE 2011), June 24-26,   2011, Nanjing, China.

 

发明专利

[1] 王喜世, 孔祥晓, 朱培.一种轴流诱导型喷雾装置, 专利号:201610210880.4;授权日期:2018.07.06

[2] 王喜世,王志刚,朱培.一种灭火用旋射流细水雾喷头,专利号:201410735470.2,授权日期:2017.5.3

[3] 倪小敏,王喜世,陶常法,张少刚,赵媚. 一种液氨洗消剂及其制备方法.专利号:ZL 2013102450959,授权公告日:2015.06.17

[4] 王喜世,朱培,李媛. 一种基于气泡雾化的微水雾喷头,专利申请日期:2013.9.13,专利申请号:201310422261.8.

[5] 王喜世,李媛,蓝美娟,陶常法. 一种微水雾幕喷头,专利申请号: 201310236612.6,授权日期:2016.4.20.

[6] 秦俊,王喜世,李雨农. 一种液体灭火剂雾化喷洒头,专利申请号: 201310204913.0,授权日期:2015.6.17.

[7] 王喜世,陶常法,刘冰. 一种基于双材料微悬臂梁的辐射热通量测量装置,专利号:ZL 201110120063.7,授权日期:2012.11.07.

[8] 王喜世、许红利、刘良宝、秦俊,一种用于测量低气压条件下喷雾特性的实验装置,专利号:ZL201010165232.4,授权日期:2012.01.25.

[9] 王喜世,许红利,谷睿,蔡昕,廖光煊,一种采用细水雾抑制气体及粉尘爆炸的实验装置,申请号: ZL200810246230.0,授权日期:2011.01.12.

[10]王喜世,廖光煊,秦俊,韦亚星,范维澄,伍小平,基于激光片光成像的粒子场全场测量方法及其装置,专利号:ZL 02113133.3,授权日期:2006.4.19.


备注:2021年11月更新