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王飞飞

1987.05

博士

副教授

CFD数值模拟、暖通空调、燃气燃烧、室内污染物控制

ffwang@ hust.edu.cn

http://faculty.hust.edu.cn/wangfeifei/zh_CN/index.htm

个人简介

一、个人简介

 

王飞飞,男,于2009年和2014年分别在金沙集团娱乐场网址和北京大学获得了工学学士(主修暖通空调)和理学博士(主修燃气燃烧学方向)学位,并于2014年受聘于金沙正规娱乐官网,现任副教授,主要从事CFD数值模拟、室内环境与污染物控制、室内气流组织、高效燃烧技术(无焰燃烧/高温空气燃烧/富氧燃烧等)以及换热器传热等方面的科研和应用工作,拥有丰富的实验和数值模拟经验。在工程热物理领域及建筑环境领域发表了学术论文50余篇以及5项专利。作为主编之一,在2011年与同行共同出版了一本CFD数值模拟的专业工具书《精通CFD工程仿真与案例实战-FLUENT, ICEM, TECPLOT》,该书籍现已重印七次,现已出版近20, 000册。

王飞飞副教授先后获得校优秀班主任、学院优秀共产党员等多项荣誉,2016-2019年连续指导本科生加入CAR-ASHRAE学生设计竞赛,并获得一等奖、二等奖、优秀设计奖等;2019年指导本科生加入MDV大赛,获得杰出设计奖。

每年计划招收暖通空调或热能动力背景硕士研究生1-2名,方向为室内污染、燃气燃烧学。另,欢迎对本人科研方向感兴趣的同学参与相关项目研究、开展大学生创新及毕业设计工作。请直接与我联系(Email: ffwang(at)hust.edu.cn,东十五楼,409)

 

二、 主要学历

 

2009.11-2014.07  北京大学,能源与资源工程系,博士

2005.09-2009.07  金沙集团娱乐场网址,建筑环境与设备工程系,工学学士

 

三、学科专业与研究方向

 

专业领域:供热供燃气通风及空调工程、室内污染物与控制、燃气燃烧学

研究方向:CFD数值模拟、内环境与污染物控制、室内气流组织、建筑节能与可再生能源利用、高效燃烧技术(无焰燃烧/高温空气燃烧/富氧燃烧等)、换热器传热数值模拟、通风工程

 

四、工作经历

2020.12-现在    金沙正规娱乐官网,副教授,系副主任

2017.11-现在    金沙正规娱乐官网,副教授

2014.07-2017.11  金沙正规娱乐官网,讲师

 

五、近年主要科研项目

1)        国家自然科学基金青年项目,煤粉非均相MILD燃烧特性及NOx生成机理,2016-2018,主持;

2)        武汉市科技局项目,典型病房生物气溶胶传播与分布特性及环境控制研究,2020-2022,第二负责人;

3)        国家重点研发计划疫情专项,社区建筑排水非集中隔离治疗潜在感染人群的排放污水风险控制技术,2020-2020,课题骨干;

4)        国家重点研发计划,武汉城市圈空气质量改善决策支持系统,2017-2020,课题骨干;

5)        国家自然科学基金,外层定型相变与内嵌管式通风屋面的主动隔热与蓄冷机制研究,2018 -2021,主要参与;

6)        国家自然科学基金,燃气轮机MILD燃烧湍流反应机制、稳定性极限及大涡模拟模型,2017-2019,主要参与;

7)        校自主创新基金,通风管内微细颗粒物沉降规律研究,2016-2018,主持;

8)        校自主创新基金,密闭空间内微细颗粒物迁移和运动分布规律研究,2015-2016,主持;

9)        国家自然科学基金,气体燃料无焰氧燃烧的氧化反应及NOx生成规律研究,2015-2017,主要参与;

10)    国家自然科学基金委员会,热伴流下气体燃料MILD燃烧的基础研究,2013-2016,主要参与;

11)    校企联合,某园林酒店室内气流组织CFD数值模拟,2019-2019,主持;

12)    校企联合,武汉地铁隧道通风系统节能及空气质量改善研究,2018-2019,参与;

13)    校企联合,某型过江管道沉降过程数值模拟,2018-2018,主持;

14)    校企联合,折流板过滤效率及优化数值模拟,2017-2018,主持;

15)    校企联合,生产设备气流组织模拟优化与试验验证,2016-2017,主要参与;

16)    校企联合,水管网水力平衡综合试验平台,系列项目,2015-今,主要参与;

17)    校企联合,典型舱段气流组织CFD仿真与实验验证,2015-2018,主持;

18)    校企联合,三亚市重点用能单位能源审计,2014,参与;

 

六、书籍、期刊论文及专利

 

书籍

[1]        徐新华、于靖华、王飞飞、刚文杰、沈国民、王劲柏等《建筑环境与能源应用工程专业毕业设计指导》,2020,机械工业出版社;

[2]     李鹏飞, 徐敏义, 王飞飞。《精通CFD工程仿真与案例实战》,2011,人民邮电出版社。

英文文章

[1]     Yuan Zhang, Yikang Wang, Feifei Wang*, Xinhua Xu, Xiaohui Wu. Numerical investigation on the transmission and dispersion of aerosols in a 7-stories building drainage system, Building and Environment, 201(15) 2021, 108009.

[2]     Jianchun Mi, Pengfei Li, Feifei Wang, Jianpeng Zhang, Guochang Wang. Review on MILD combustion of gaseous fuel: its definition, ignition, evolution, and emissions. Energy & Fuels, 2021. 35, 9, 7572–7607.

[3]     Cuijiao Ding, Pengfei Li, G. Shi, Y. Liu, Feifei Wang, Fan Hu. Comparative study between flameless combustion and swirl flame combustion using low preheating temperature air for homogeneous fuel no reduction. Energy & Fuels, 2021, 35, 9, 8181-8193.

[4]     Feifei Wang*, Pengfei Li, Jianchun Mi, Ziyun Shu, A novel method to improve stability of MILD combustion in a highly heat-extracted furnace, Fuel, 2021, 120315.

[5]     Jiaxin Chen, Hui Hu*, Feifei Wang*, Air quality characteristics in Wuhan (China) during the 2020 COVID-19 pandemic, Environmental Research, 195, 2021, 110879.

[6]     Chong Zhang, Liao Li, Jinbo Wang, Feifei Wang*, Wenjie Gang*. Utilization of earth-to-air heat exchanger to pre-cool/heat ventilation air and its annual energy performance evaluation: A case study, Sustainability, 12(20) 2020, 1-17

[7]     Jinghua Yu, Kangxin Leng, Feifei Wang*, Hong Ye, Yongqiang Luo, Simulation study on dynamic thermal performance of a new ventilated roof with form-stable pcm in Southern China, Sustainability, 12(22) 2020, 1-21

[8]     Minhao Wang, Feifei Wang*, Pengfei Li. Dependence of the blowout limit on flow structure, heat transfer, and pressure loss in a bluff-body micro-combustor. International Journal of Hydrogen Energy. 2020, 45(38) 19912-19925.

[9]       Ziyun Shu, Feifei Wang, Chong Dai, Jianchun Mi. Characteristics of nitric-oxide emissions from traditional flame and mild combustion operating in a laboratory-scale furnace. Journal of Thermal Science. 2019, https://doi.org/10.1007/s11630-020-1235-0.

[10]   Feifei Wang*, Pengfei Li, Jianchun Mi, JinboWang. A refined global reaction mechanism for modeling coal combustion under moderate or intense low-oxygen dilution condition, Energy, 2018, 157: 764~777.

[11]   Feifei Wang*, Enshi Zhang. Xinhua Xu, Jinbo Wang, Jianchun Mi. Particle deposition in ventilation duct with convex or concave wall cavity, Journal of Central South University of Technology, 2018, 25, 2601~2614.

[12]   Fan Hu, Pengfei Li, Junjun Guo, Feifei Wang, Kai Wang et al., Optimal equivalence ratio to minimize no emission during moderate or intense low-oxygen dilution combustion, Energy & Fuels, 2018 32(4): 44784492.

[13] Xudong Jiang, Pengfei Li, Junjun Guo, Fan Hu, Feifei Wang, Jianchun Mi, Zhaohui Liu, Detailed investigation of NO mechanism in non-premixed oxy-fuel jet flames with CH4/H2 fuel blends, International Journal of Hydrogen Energy, 2018, 43(17)8534~8557.

[14] Feifei Wang*, Enshi Zhang, Jinbo Wang. A study of particle deposition in ventilation ducts with convex or concave wall cavity. Procedia Engineering, 2017, 205: 3285-3292.

[15]   Jianpeng Zhang, Pengfei Li, Feifei Wang, Jianchun Mi, Emissions of NO and CO from counterflow combustion of CH4 under MILD and oxyfuel conditions, Energy, 2017, 124652~664.

[16]   Feifei Wang*, Pengfei Li, Jianchun Mi, Jinbo Wang. Chemical kinetic effect of hydrogen addition on ethylene jet flames in a hot and diluted coflow, International Journal of Hydrogen Energy, 2015, 40(46): 16634~16648.

[17]   Feifei Wang, Pengfei Li, Jianpeng Zhang, Zhenfeng Mei, Jianchun Mi, Jinbo Wang. Routes of formation and destruction of nitrogen oxides in ch4/h2 jet flames in a hot coflow. International Journal of Hydrogen Energy, 2015, 40(18), 6228-6242.

[18]   Zhenfeng Mei, Pengfei Li, Jianchun Mi, Feifei Wang, Jianpeng Zhang. Diffusion MILD combustion of firing pulverized-coal at a pilot furnace. Flow, Turbulence and Combustion, DOI: 10.1007/s10494-015-9642-0, 2015

[19]   Jianpeng Zhang, Jianchun Mi, Pengfei Li, Feifei Wang, B. Dally. MILD combustion of methane diluted by CO2 and N2. Energy & Fuels, 2015, 29(7), 4576-4585.

[20]   Zhenfeng Mei, Jianchun Mi, Feifei Wang, Pengfei Li, Jianpeng Zhang. Chemical flame length of a methane jet into oxidant stream. Flow, Turbulence and Combustion. 2015, 94:767-794.

[21]   Pengfei Li, Feifei Wang, Jianchun Mi, B.B. Dally, A. Parente. Mechanisms of NO formation in MILD combustion of CH4/H2 Fuel Blends. International Journal of Hydrogen Energy, 2014, 39(33), 19187-19203.

[22]   Pengfei Li, Feifei Wang, Y. Tu, Zhenfeng Mei, Jianpeng Zhang, Y. et al. MILD Oxy-combustion of light fuel oil and pulverized coal in a pilot-scale furnace. Energy & Fuels, 2014; 28 (2): 1524-1535.

[23]   Pengfei Li, Feifei Wang, Jianchun Mi, B.B. Dally, Zhenfeng Mei. MILD combustions at different fuel-air patterns and characteristics of the reaction regime. Energy & Fuels, Accepted. 2014.

[24]   Feifei Wang, Pengfei Li, Zhenfeng Mei, Jianpeng Zhang, Jianchun Mi. Combustion of CH4/O2/N2 in a well stirred reactor. Energy, 2014, 72(1), 242-253.

[25]   Feifei Wang, Pengfei Li, Zhenfeng Mei, Jianchun Mi. Auto- and forced-ignition temperatures of diffusion flames obtained through the steady RANS modeling. Energy & Fuels, 2014; 28 (1), 666–677. (The Most Read Article in Energy & Fuels in 2014)

[26]   Zhenfeng Mei, Pengfei Li, Feifei Wang, Jianpeng Zhang, Jianchun Mi. Influences of reactant injection velocities on MILD coal combustion. Energy & Fuels, 2014; 28 (1), 369–384. (The Most Read Article in Energy & Fuels in 2014)

[27]   Pengfei Li, B.B. Dally, Jianchun Mi, Feifei Wang. MILD Oxy-combustion of gaseous fuels in a laboratory scale furnace. Combustion and Flame, 2013; 160(5), 933-946. (The hottest article in Combustion and Flame in 2013 full year)

[28]   Feifei Wang, Jianchun Mi, Pengfei Li. Combustion regimes of a jet diffusion flame in hot coflow. Energy & Fuels, 2013; 27 (6), 3488-3498.

[29]   Zhenfeng Mei, Feifei Wang, Pengfei Li, Jianchun Mi. Diffusion flame of a CH4/H2 jet in a hot coflow: effects of coflow oxygen and temperature. Chinese Journal Chemical Engineering, 2013; 21(7), 787-799. 2013.

[30]   Zhenfeng Mei, Jianchun Mi, Feifei Wang, Dimension of CH4-jet flame in hot O2/CO2 coflow, Energy & Fuel, 2012; 26 (6), 3257-3266.

[31]   Jianchun Mi, Feifei Wang, Pengfei Li, B.B. Dally, Modified vitiation by operational parameters in a MILD combustion furnace, Energy & Fuel, 2012; 26(1), 265-277.

[32]   Feifei Wang, Jianchun Mi, Pengfei Li, C. Zheng. Diffusion flame of a CH4/H2 jet in hot low-oxygen coflow, International Journal of Hydrogen Energy, 2011; 36(15): 9267-9277.

中文文章

[33]   王怡康,王飞飞*,徐新华,圆盘通风制曲设备气流组织均匀性优化,煤气与热力,2021A19.

[34] 刘畅,胡辉,王飞飞*,中度污染情景下武汉市空气质量改善研究,环境科学与技术,202091-6

[35] 姬鹏程,王飞飞*,高校教室二氧化碳监测与受访者主观评价,煤气与热力,20204010-13

[36] 王明昊,王飞飞回流与火焰拉伸对氢气微尺度燃烧的影响,金沙集团娱乐场网址自然科学学报,20199127-132.

[37]   石昕平,王飞飞. 换热器中水流动方向对换热量的影响. 建筑热能通风空调 2019; 38 (12): 10-3.

[38]   张恩实, 王飞飞. 冷却塔折流板除雾器叶片折角优化数值模拟. 流体机械 2018, 46(07): 69-75.

[39]   魏苗苗, 王飞飞, 徐新华, 王劲柏. 管壁带凸肋板和凹槽的通风管内颗粒沉降研究. 建筑热能通风空调, 2017, (08): 5-9.

[40]   梅振锋,王飞飞,张健鹏,李鹏飞,米建春. 一次风风速对高温预热空气下的煤粉MILD燃烧的影响, 工程热物理学报, 2014, 35(4), 782-786.

[41]   王飞飞,李鹏飞,米建春,炉壁散热率和烟气循环率对预混燃烧的影响,中国电机工程学报,2011, 31(14): 44-49.

[42]   李鹏飞,王飞飞,米建春,梅振峰,燃料当量比与燃料-空气混合模式对无焰燃烧的影响. 工程热物理学报,2011 (32): 1592-1506.

专利

[43] 米建春、王飞飞、梅振锋(2014):一种直喷式燃气无焰燃烧器,专利号:201410019516.0, 中国知识产权局. (发明)

[44]   米建春、梅振锋、王飞飞2014):一种斜流式常温无焰燃烧器,专利号:201410020218.3, 中国知识产权局. (发明)

[45]   米建春、梅振锋、王飞飞2014):一种内旋流外直流的无焰燃烧器,专利号:201420074077.9, 中国知识产权局. (实用新型)

[46]   王飞飞,李鹏飞、柳朝晖、胡帆、米建春(2019):一种烟气出口外旋式的半焦类难燃燃料无焰燃烧装置,专利号201907313021.3.  (发明)

[47]   王飞飞,李鹏飞,米建春(2020; 一种无焰燃烧及热量回收装置和应用,中国,CN112013543A(发明)