姓 名: 吴 峰
最高学历:工学博士
职称/职位:教授/博士生导师/化工系主任
专 业:化学工程
通信地址: 西安市太白北路229号WilliamHill官网,710069
电子邮件: wufeng@nwu.edu.cn
一、教育背景及工作经历:
1997年9月-2001年7月: 西安交通大学核工程专业,工学学士
2001年9月-2006年11月: 西安交通大学动力工程及工程热物理专业,工学博士(硕博连读)
2007年4月-2010年9月: 西安石油大学石油工程学院油气储运工程教研室(讲师、副教授)
2010年10月-2011年3月: 日本早稻田大学理工学院次席研究员(超临界核反应堆安全分析)
2011年9月-2016年4月:WilliamHill官网化学工程系,副教授、硕导
2016年5月-现在:WilliamHill官网化学工程系,教授、博导/硕导
二、教学工作:
1, 主讲本科生《化工过程分析与合成》、《化工传递过程基础》、研究生《化工计算机软件实践》等课程;指导《化工原理课程设计》、《毕业论文》及本科生导师制工作.
2, 主持山东魏桥创业集团有限公司-教育部产学研项目《工业园生产碳排放路径与评价体系研究》,10万,省部级,2022.
3, 主持威廉希尔中文网站本科人才培养建设项目《化学工程专业主干课程群教学模式的研究与建设》,50万,2019.
4, 主持威廉希尔中文网站本科人才培养建设项目之高水平教材建设项目《能源化工计算软件及应用》,5万, 2021.
5, 主持威廉希尔中文网站研究生精品教材建设项目《计算机软件实践》,3万,2022.
6, 威廉希尔中文网站优秀博士学位论文培育项目指导教师,2023.
7, 指导研究生、本科生参加陕西省、威廉希尔中文网站“挑战杯”竞赛6次,分别获得“优秀奖”2次,“三等奖”2次;指导本科生“互联网+”竞赛活动3次(一等奖、银奖和铜奖);指导国家级老员工创新创业训练项目(2项)、省级老员工创新创业训练项目(2项, 结题优秀)及校级老员工创新训练项目2项.
8, 承担《化工生产实习》、《化工认识实习》、《实践周》、《学年论文》及化学工艺、能源化工专业本科生班主任等课程教学工作.
三、教学论文与获奖:
1, 第十六届全国老员工化工设计竞赛一等奖(指导教师, 2022)
2, 第六届中国石油和化工公司产品优秀论文二等奖(第一作者, 2022)
3,吴峰 等,基于工程教育专业认证的化工系统课程群教学体系的构建,化工高等教育,38(1):38-41,2021.
4, 吴峰 等,工程教育专业认证背景下化工传递过程课程教学改进探索,化工高等教育,38(2):58-62,2021.
5, 吴乐、吴峰、王玉琪、吴冬、郑岚. Aspen Plus模拟与化工专业实验有效融合教学实践及改进,威廉希尔中文网站学报(自然科学版),51(1):53-58,2021.
四、研究领域:
1,多相反应器(喷动床、流化床)脱硫脱碳过程化强化与多尺度仿真
2,化工设备及管道复杂多相流动冲蚀分离过程模拟与实验研究
3,管道定漏溯源、管土耦合模型、安全分析与数字孪生系统
4,航天煤油流变减阻机理与传热传质过程强化CFD研究
5,高效紧凑式换热器的设计与研发
五、学术兼职与科研概况:
1,现为中国颗粒学会青年理事、中国化工学会过程仿真模拟专委会青年委员、陕西省岩土力学与工程学会常务理事、陕西省秦创原“科学家+工程师”队伍建设项目首席科学家、西安塔力科技有限公司定漏溯源首席科学家、《Energy Storage and Saving》青年编委、EI源刊《化工进展》编委、《应用力学学报》青年编委、威廉希尔学术委员会及学位委员会委员、ACS会员、中国化工学会会员、中国制冷学会高级会员。担任国家科技专家库评审专家、国家科学技术奖励评审专家、国家自然科学基金项目评议专家、中国科协项目评审专家,多个国家与省部级科研项目、科技奖励与人才项目评审专家;担任50余种SCI期刊论文审稿人或仲裁人。
2,主持国家自然科学基金面上项目(3项)、陕西省秦创原“科学家+工程师”队伍建设项目、“仲英青年学者”人才项目、教育部产学研项目、教育部博士点基金、中国博士后基金特别资助项目、陕西省自然科学基金面上项目、中国博士后面上一等资助项目等纵向课题及校企合作、军民合作横向课题20余项;参与完成了“国家重点研发计划项目”、“新世纪优秀人才支持计划”、“国家自然科学基金面上项目”等项目;主持教学项目4项(省部级1项)。第一作者或通讯作者发表SCI/EI收录论文80余篇;包括Chemical Engineering Journal、Chemical Engineering Science、Industrial & Engineering Chemistry Research、Powder Technology、Physics of Fluids、International Journal of Heat and Mass Transfer、Journal of Industrial and Engineering Chemistry、International Communications in Heat and Mass Transfer、Advanced Powder Technology、Chemical Engineering Research and Design等期刊;第一作者出版学术专著2部(科学出版社);第一作者授权专利18项(转让2项)。第一作者荣获中国化工学会科技进步奖二等奖1项、陕西石化科技奖一等奖1项、陕西省科学技术三等奖1项、陕西高等学校科学技术奖二等奖2项、陕西省科技工作者创新创业大赛三等奖3项;获得陕西石化青年科技突出贡献奖、全球华人化工学者研讨会“未来化工学者”及唐仲英基金会“仲英青年学者”等个人荣誉。
六、代表论文与会议报告(*代表通讯作者):
1, Shuai Wang, Feng Wu*, Xudong Wang. Experimental and Kinetics Analysis on Biomass Chemical Looping Gasification Using Lean Iron Ore as Oxygen Carrier. Chemical Engineering Journal, 474: 145855, 2023. (SCI, TOP, IF=15.1)
2, Xinxin Che, Feng Wu*, Junwu Wang. Multiple field synergy mechanism of the desulfurization process in the intensified spouted bed. Chemical Engineering Journal, 467: 143521, 2023. (SCI, TOP, IF=15.1)
3, Xinxin Che, Feng Wu*, Wenzheng Jing. et al. Numerical study of multi-jet structure impact on flue gas desulfurization process in 3D spouted beds. Chemical Engineering Journal, 457: 141259, 2023. (SCI, TOP, IF=15.1)
4, Liuyun Xu, Feng Wu*, Junwu Wang. DDPM simulation of the erosion of immersed tubes in a pulsating fluidized bed. Chemical Engineering Science, 269: 118475, 2023. (SCI, TOP, 化工三大刊)
5, Jiali Du, Feng Wu*, Xiaoxun Ma. Junwu Wang. Effect of swirling spouting intensification structure on semi-dry desulfurization process in 3D spouted beds. Chemical Engineering Science, 269:118452, 2023. (SCI, TOP, 化工三大刊)
6, Xuefeng Liu, Rong Guo, Feng Wu*, et al. Effect of combining multi-jet component with axial swirl blade on evaporation in a spouted bed. Physics of Fluids, 35: 033308-033316, 2023. (SCI, TOP, 流体力学顶刊)
7, Wenbin Li, Feng Wu*, Liuyun Xu, et al. Numerical and experimental study on the particle erosion and gas-particle hydrodynamics in an integral multi-jet swirling spout-fluidized bed. Chinese Journal of Chemical Engineering, 61: 90-101, 2023. (SCI)
8, Jiali Du, Feng Wu*, Xiaoxun Ma. Progress in research of process intensification of spouted bed: A comprehensive review. Chinese Journal of Chemical Engineering, 62, 238-260, 2023. (SCI)
9, Jiali Du, Feng Wu*, Xiaoxun Ma. Influences of operating parameters on uniform mixing behaviors of gas-liquid-solid in novel spouted beds with strengthening components, Journal of Industrial and Engineering Chemistry, 127: 509-522, 2023. (SCI)
10, Jiayi Guo, Hang Xiao, Feng Wu*. Prediction of viscosity of kerosene-based nanographene fluids by molecular dynamics simulation analysis. Journal of Molecular Liquids, 391, 123417, 2023. (SCI)
11, Wenzheng Jing, Min Xiang, Yan Gao, Feng Wu*. Experimental and numerical study on the process of removing kerosene residues in rocket engine engine chamber. International Communications in Heat and Mass Transfer, 149: 107126, 2023. (SCI)
12, Rong Guo, Feng Wu*, Xinxin Che, et al. Effect of the novel combined internal devices on gas−solid flow behavior in spouted beds, Chemical Engineering Research and Design, 191: 493-506, 2023. (SCI)
13, Xinxin Che, Feng Wu*, et al. Numerical study on the effect of longitudinal vortex generator on semi-dry desulfurization process in 3D spouted beds. Advanced Powder Technology, 34: 103961, 2023. (SCI)
14, Shuai Wang, Feng Wu*, Beibei Di, et al. Intensification Effect of a Multi-Jet Structure on a Multiphase Flow and Desulfurization Process in a Fluidized Bed. ACS Omega,8:5861−5876, 2023. (SCI)
15, Liuyun Xu, Feng Wu*, Haibo Ren. et al. Experimental and numerical investigation on erosion of circular and elliptical immersed tubes in fluidized bed.Powder Technology, 409: 117820, 2022.(SCI, TOP)
16, Xinxin Che, Rong Gu, Feng Wu*, et al.Experiment and CFD study on the hydrodynamics in novel internal-intensified spouted beds. Powder Technology, 412: 118009, 2022. (SCI, TOP)
17, Rong Guo, Jinhao Bai, Feng Wu*, Junwu Wang. et al. CFD–DEM simulation of wet granular-fluid flows and heat transfer in an integral multi-jet spout-fluidized bed. Powder Technology, 403:117384,2022. (SCI, TOP)
18, Xinxin Che, Feng Wu*, Xiaoxun Ma. Effect of adjusted mesoscale drag model on flue gas desulfurization in powder-particle spouted beds. Frontiers of Chemical Science and Engineering, 16(6): 909–920, 2022. (SCI)
19, Shengning Zhao, Feng Wu*, Xiaoxun Ma, Wenjing Zhou. Effect of novel intensification structure on drying of particulate materials in spouted beds. Journal of Industrial and Engineering Chemistry, 114: 263-275, 2022. (SCI)
20, Xinxin Che, Rong Guo, Feng Wu*, et al. Simulations of water vaporization in novel internal-intensified spouted beds Multiphase-flow, heat and mass transfer. Journal of Industrial and Engineering Chemistry, 116: 411-427, 2022. (SCI)
21, Lijuan Zhang, Qiang Gao, Feng Wu*.et al. Numerical and experimental study on the suction process of residual kerosene of rocket engines. International Communications in Heat and Mass Transfer, 139: 106504, 2022. (SCI)
22, Haojie Duan, Feng Wu*, Shengning Zhao.et al. Experimental investigation of swirl flow enhancement effect on particle drying process in a novel spouted bed. Industrial & Engineering Chemistry Research, 60: 13562-13573, 2021. (SCI, 化工三大刊)
23, Jiali Du, Feng Wu*, Xiaoxun Ma.et al. Numerical study on the effect of three novel strengthening components on water evaporation in 3D spouted beds. Industrial & Engineering Chemistry Research, 60: 11317-11333, 2021. (SCI, 化工三大刊)
24, Liuyun Xu, Feng Wu*, Yuan Yan, Xiaoxun Ma. et al. Numerical simulation of air-solid erosion in elbow with novel arc-shaped diversion erosion-inhibiting plate structure. Powder Technology, 393: 670-680, 2021. (SCI, TOP)
25, Jiali Du, Kai Yue, Feng Wu*. et al. Numerical investigation on the water vaporization during semi dry flue gas desulfurization in a three-dimensional spouted bed. Powder Technology, 383:471-483, 2021. (SCI, TOP)
26, Feng Wu*, Chunling Yang, et al. Numerical and experimental study of integral multi-jet structure impact on gas-solid flow in a 3D spout-fluidized bed. Chemical Engineering Journal, 393: 124737, 2020. (SCI, TOP, IF=15.1)
27, Feng Wu*, Kai Yue, Weiwei Gao, et al. Numerical simulation of semi-dry flue gas desulfurization process in the powder-particle spouted bed. Advanced Powder Technology, 31(1): 323-331, 2020. (SCI)
28, Feng Wu*, Xinxin Che, Zhenyu Huang, et al. Numerical Study on the Gas−Solid Flow in a Spouted Bed Installed with a Controllable Nozzle and a Swirling Flow Generator. ACS Omega, 5: 1014-1024, 2020. (SCI)
29, Feng Wu*, Lingyi Shang, et al. Experimental investigation on hydrodynamic behavior in a spouted bed with longitudinal vortex generators. Advanced Powder Technology, 30(10): 2178-2187, 2019. (SCI)
30, Feng Wu*, Weiwei Gao, Jiejie Zhang, et al. Numerical analysis of gas-solid flow in a novel spouted bed structure under the longitudinal vortex effects. Chemical Engineering Journal, 334: 2105-2114, 2018. (SCI, TOP, IF=15.1)
31, Feng Wu*, Xuan Zhang, Wenjing Zhou, et al. Numerical simulation and optimization of hydrodynamics in a novel integral multi-jet spout-fluidized bed. Powder Technology, 336: 112-121, 2018. (SCI, TOP)
32, Feng Wu*, Jiejie Zhang, Xiaoxun Ma, et al. Numerical simulation of gas-solid flow in a novel spouted bed: Influence of row number of longitudinal vortex generators. Advanced Powder Technology, 29 (8): 1848-1858, 2018. (SCI)
33, Feng Wu*, Gang Wang. Numerical simulation of natural convection in an inclined porous cavity under time-periodic boundary conditions with a partially active thermal side wall. RSC Advances, 7: 17519-17530, 2017. (SCI)
34, Feng Wu*, Gang Wang, Wenjing Zhou. Buoyancy induced convection in a porous cavity with sinusoidally and partially thermally active sidewalls under local thermal non-equilibrium condition. International Communications in Heat and Mass Transfer, 75: 100-114, 2016. (SCI)
35, Feng Wu*, Wenjin Zhou, Xiaoxun Ma. Natural convection in a porous rectangular enclosure with sinusoidal temperature distributions on both side walls using a thermal non-equilibrium model.International Journal of Heat and Mass Transfer, 85: 756-771,2015.(SCI, TOP)
36, Feng Wu*, Gang Wang, et al. Aspect ratio effect on natural convection in a square enclosure with a sinusoidal active thermal wall using a thermal non-equilibrium model. Numerical Heat Transfer Part A-Applications,70(3): 310-329, 2016. (SCI)
37, Feng Wu*, Wenjin Zhou, et al. Numerical Simulation of Natural Convection in a Porous Cavity with Linearly Temperature Distributions Under the Local Thermal Nonequilibrium Condition.Numerical Heat Transfer Part A-Applications, 68(12): 1394-1415, 2015. (SCI)
38, Feng Wu*, Gang Wang, Wenjing Zhou, et al. A Thermal Nonequilibrium Approach to Natural Convection in a Square Enclosure Due to the Partially Cooled Sidewalls of the Enclosure. Numerical Heat Transfer Part A-Applications,67(7): 771-790, 2015. (SCI)
39, Feng Wu*. CFD Analysis of Semi-dry Flue Gas Desulfurization Process in the 3D Spouted Bed. 23rd Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction,17-21, August, Xi'an, China, 2020. (Keynote lecture. 40 minutes)
40, Feng Wu*. Numerical simulation of gas-solid two-phase flow in spouted bed under the swirling effect of gas flow. 10th Global Chinese Chemical Engineers Symposium (GCCES), 17-20, August, Niagara Falls, Ontario, Canada, 2018. (Young Scholars special talk)
41, Feng Wu*.CFD simulation of the hydrodynamics in a novel spouted bed with swirling flow. FluidizationXVI, 26-31, May, Guilin, China, 2019. (Oral presentation)
42, Feng Wu*.CFD-modeling of effects of longitudinal vortex on gas–solid flow in a novel spouted bed. Proceedings of the 12th International Green Energy Conference, July 31-August 3, Xi’an, China, 2017. (Oral presentation)
43, Jiayi Guo, Feng Wu*. Prediction of coal-based-nanographene fluid viscosity by molecular dynamics simulation. 1st International Conference on Energy Storage and Saving, Oct. 20-23, Xi’an, China, 2022. (Hot presentation)
44, 吴峰. 流态化反应器过程强化与颗粒冲蚀研究.2022年中国工程热物理学会多相流年会,珠海,2.15-18, 2023.(特邀报告)
45, 吴峰. 喷动床多相反应器过程强化.中国新安硅谷有机硅创新发展峰会暨首届长三角“未来科学家求真”大会, 杭州-建德, 6.17-19,2022.(专题报告)
46, 吴峰. 喷动床内多相反应过程新型强化技术.第十一届全国流态化会议暨颗粒技术会议,杭州,10.17-19,2021.(主题报告)
47, 吴峰. 粉-粒喷动床内脱硫过程模拟及过程强化.2021中国化工学会年会, 沈阳, 9.24-26, 2021.(主题报告)
48, 吴峰. 喷动床内气固多相流动过程强化. 第二届全国化工过程强化会议, 南京, 12.05-08, 2020. (主题报告)
七、出版学术专著:
1,吴峰 著, 喷动床反应器过程强化原理与技术, 科学出版社,ISBN 978-7-03-073950-6, 2023
2, 吴峰, 闫渊, 龚明, 肖航 著, 能源化工计算软件及应用, 科学出版社, ISBN 978-7-03-071037-6,202
八、学术兼职:
1, 中国颗粒学会青年理事
2, 中国化工学会过程仿真模拟专委会青年委员
3, 陕西省岩土力学与工程学会常务理事
4, 西安塔力科技有限公司定漏溯源首席科学家
5,《Energy Storage and Saving》青年编委
6, EI源刊《化工进展》编委
7,《应用力学学报》青年编委
8, 国家科技专家库评审专家
9, 国家科学技术奖励评审专家
10, 国家自然科学基金项目同行通讯评议专家
11,中国科协项目评审专家
12, 中国创新创业大赛专家评委库专家
13, 国家研究生学位论文评审中心专家
14, 工业与信息化部人才项目评审专家
15, 教育部科技管理信息系统专家库专家
16, 陕西省、山东省、江苏省、重庆市科学技术奖励评审专家
17, 陕西省科协科技人才奖项评审专家
18, 教育部学位中心网络评议专家
19, 江西省科技项目与双千人才计划项目会评专家
20,黑龙江省“龙江科技英才”特殊支持计划项目评审专家
21,陕西省科技厅重点研发项目评审专家
22, 广东省科技项目会评专家
23,陕西省博士后专家库专家
24, 陕西省工业和信息化行业评标专家
25, 陕西省综合评标评审专家库专家
26, 北京市、陕西省、广东省、江苏省、湖南省、安徽省、重庆市、河南省、江西省、西藏自治区及西安市科技计划项目网评专家
27, 担任《Chemical Engineering Journal》、《AIChE Journal》、《Chemical Engineering Science》、《Industrial & Engineering Chemistry Research》、《Applied Energy》、《Energy》、《International Journal of Heat and Mass Transfer》、《Physics of Fluids》、《Journal of Hazardous Materials》等50余种SCI期刊论文审稿人或仲裁人,及《化工学报》、《化工进展》、《高校化学工程学报》等期刊论文审稿人
28, 2023年第十二届中国颗粒大会分会主持;2023年中国工程热物理学会多相流年会分会主持;2022年全球华人化工学者会议优秀博士生论坛分会主持;2021年第十一届全国流态化会议暨颗粒技术会议分会主持;2020年中国颗粒学会第十一届学术年会分会主持;2019年AIChE与中国颗粒学会主办:Fluidization XVI 分会主持;2018年中国颗粒学会第十届学术年会分会主持;2017年 The 12th International Green Energy Conference (IGEC-XII)分会主持
29, ACS会员、中国化工学会会员、中国制冷学会高级会员、中国颗粒学会会员
九、主要获奖及荣誉:
1,中国化工学会科技进步奖二等奖(第一作者,2022)
2,陕西石化科技奖一等奖(第一作者,2022)
3,陕西省秦创原“科学家+工程师”队伍建设项目“首席科学家”(2022)
4,陕西石化青年科技突出贡献奖(陕西省化工学会,2021)
5,陕西高等学校科学技术二等奖(第一作者,2021)
6,陕西省科技工作者创新创业大赛三等奖(第一作者,2021)
7,“挑战杯”陕西省老员工课外科技作品竞赛三等奖指导教师(2021)
8,陕西省科技工作者创新创业大赛三等奖2项(第一作者;第3作者,2020)
9,威廉希尔中文网站优秀硕士论文指导教师(2019,2020)
10,“未来化工学者”(全球华人化工学者研讨会,加拿大,大瀑布市,2018)
11,陕西省科学技术三等奖 (第二作者,2018)
12,“仲英青年学者”(唐仲英基金会,2016)
个人主页:https://faculty.nwu.edu.cn/FengWu/zh_CN/index.htm
