基本信息
姓名:郭伟
系所:热科学与能源工程系
职称:讲师
办公地点:科技楼913A
邮箱:guowei@ustb.edu.cn
教育及工作经历
教育经历:
2011.09-2015.06,北京科技大学,热能与动力工程,学士
2015.09-2021.06,北京科技大学,动力工程及工程热物理,博士(直博)
2018.12-2019.06,英国伯明翰大学储能研究中心,联合培养博士
工作经历:
2021.08-2023.12,北京科技大学,能源与环境工程学院,博士后
2024.01-至今,北京科技大学,能源与环境工程学院,讲师
2011.09-2015.06,北京科技大学,热能与动力工程,学士
2015.09-2021.06,北京科技大学,动力工程及工程热物理,博士(直博)
2018.12-2019.06,英国伯明翰大学储能研究中心,联合培养博士
工作经历:
2021.08-2023.12,北京科技大学,能源与环境工程学院,博士后
2024.01-至今,北京科技大学,能源与环境工程学院,讲师
研究领域
多相能质可控传递与应用
1.多相流非稳态流动传热:热扩散式测量新技术/电子器件散热
2.液固/气固相变热质传递:相变储热/储冷单元设计与技术开发
3.流程工业物质流/能流匹配:空分-液化空气耦合储能集成工艺
1.多相流非稳态流动传热:热扩散式测量新技术/电子器件散热
2.液固/气固相变热质传递:相变储热/储冷单元设计与技术开发
3.流程工业物质流/能流匹配:空分-液化空气耦合储能集成工艺
研究生培养
每年招收硕士研究生.
欢迎有志于从事储能(储热、储冷)、电子器件热管理、新能源材料、多相流传热传质等领域基础和应用研究的同学申报,课题组与英国伯明翰大学储能研究中心保持长期紧密合作关系,提供自由开放的科研氛围与出国交流机会,欢迎你的加入!
欢迎有志于从事储能(储热、储冷)、电子器件热管理、新能源材料、多相流传热传质等领域基础和应用研究的同学申报,课题组与英国伯明翰大学储能研究中心保持长期紧密合作关系,提供自由开放的科研氛围与出国交流机会,欢迎你的加入!
开设课程
本科生课程:
《工程流体力学》,32学时,专业必修课
《工程流体力学》,32学时,专业必修课
学术/社会兼职
1.中国工程热物理学会会员、北京制冷学会会员、北京科技大学博士后联谊会理事
2.《Chemical Engineering Science》、《Measurement》、《过程工程学报》等多个国际/国内期刊审稿人
2.《Chemical Engineering Science》、《Measurement》、《过程工程学报》等多个国际/国内期刊审稿人
代表性论文及著作
代表性期刊论文:
[1] Guo Wei, Kong Fulin, Wang Li, Liu Chuanping, et al. Distribution law of Taylor bubble/liquid slug length in oil-gas-water slug flow and the measurement of gas/liquid flow rates based on thermal diffusion. Applied Thermal Engineering, 2024, (236):121886. (SCI, Top期刊, IF: 6.4)
[2] Guo Wei, Tong Lige, Wang Li, Liu Chuanping, et al. Local instantaneous heat transfer characteristics around a rising single Taylor bubble and the temperature response of relatively thick pipe wall under local constant heat flux. Applied Thermal Engineering, 2024, (236):121521. (SCI, Top期刊, IF: 6.4)
[3] Guo Wei, Wang Li, Tong Lige, Liu Chuanping. Rapid On-Line and Non-Invasive Flow Rate Measurement of Gas–Liquid Slug Flow Based Only on Basic Differential Pressure Fluctuations. IEEE Transactions on Instrumentation and Measurement, 2023,(72):1-11. (SCI, Top期刊, IF: 5.6)
[4] Guo Wei, He Xiufen, Liu Chuanping, Wang Li, et al. Flowrate measurement of vertical oil-gas-water slug flow based on basic temperature and differential pressure signals. Measurement, 2023, (210):112555. (SCI, Top期刊, IF: 5.6)
[5] Guo Wei, Tong Lige, Liu Chuanping, Wang Li, et al. Effect of the Heat Flow Distribution and Thermophysical Properties of the Pipe Wall and Fluid on the Wall Temperature Response to a Rising Taylor Bubble. International Communications in Heat and Mass Transfer, 2023, (149):107124. (SCI, Top期刊, IF: 7.0)
[6] Guo Wei, Tong Lige, Yang Liuan, et al. A thick-layer drying kinetic model and drying characteristics of moisture-containing porous materials. International Communications in Heat and Mass Transfer, 2023, (149):107133. (SCI, Top期刊, IF: 7.0)
[7] Guo Wei, Kong Fulin, Tong Lige, et al. A novel liquid natural gas combined cycle system integrated with liquid nitrogen energy storage and carbon capture for replacing coal-fired power plants: system modelling and 3E analysis. Energy Conversion and Management, 2023, (298):117755. (SCI, Top期刊, IF: 10.4)
[8] Guo Wei, Wang Zhentao, Liu Chuanping, et al. New formula for direct prediction of the effective thermal conductivity of the ellipsoidal granular bed at high temperatures. Industrial & Engineering Chemistry Research, 2023, 62(50):21811–21821. (SCI, 国际三大权威化工期刊, IF: 4.2)
[9] Guo Wei, Wang Li, Liu Chuanping. Prediction of gas–liquid two-phase flow rates through a vertical pipe based on thermal diffusion. Industrial & Engineering Chemistry Research, 2021, 60(6):2686-2697. (SCI, 国际三大权威化工期刊, IF: 4.3)
[10] Guo Wei, Liu Chuanping, Wang Li. Temperature fluctuation on pipe wall induced by gas–liquid flow and its application in flow pattern identification. Chemical Engineering Science, 2021, (234):116568. (SCI, Top期刊, IF: 4.9)
[11] Guo Wei, Liu Chuanping, Wang Li, Huang Ruolin. Response of thermal diffusion to gas–liquid stratified/wave flow and its application in measurement. Chemical Engineering Science, 2020, (225):115789. (SCI, Top期刊, IF: 4.3)
[12] Guo Wei, Wang Li, Liu Chuanping. Thermal diffusion response to gas–liquid slug flow and its application in measurement. International Journal of Heat and Mass Transfer, 2020, (159):120065. (SCI, Top期刊, IF: 5.6)
代表性会议论文/报告:
[1] Guo Wei. Flowrate measurement of vertical oil-gas-water slug flow based on thermal diffusion. The 1st World Conference on Multiphase Transportation, Conversion & Utilization of Energy (MTCUE), Xi’an, China, 2022. (Outstanding Paper Award)
[2]郭伟.气液多相流的热扩散式测量新方法研究,中国工程热物理学会多相流学术年会,上海,中国,2023.(邀请报告)
[3]郭伟.基于温度反演的气液两相流流型识别与流量测量,第一届全国多相流测试青年论坛,郑州,中国,2024.(邀请报告)
[1] Guo Wei, Kong Fulin, Wang Li, Liu Chuanping, et al. Distribution law of Taylor bubble/liquid slug length in oil-gas-water slug flow and the measurement of gas/liquid flow rates based on thermal diffusion. Applied Thermal Engineering, 2024, (236):121886. (SCI, Top期刊, IF: 6.4)
[2] Guo Wei, Tong Lige, Wang Li, Liu Chuanping, et al. Local instantaneous heat transfer characteristics around a rising single Taylor bubble and the temperature response of relatively thick pipe wall under local constant heat flux. Applied Thermal Engineering, 2024, (236):121521. (SCI, Top期刊, IF: 6.4)
[3] Guo Wei, Wang Li, Tong Lige, Liu Chuanping. Rapid On-Line and Non-Invasive Flow Rate Measurement of Gas–Liquid Slug Flow Based Only on Basic Differential Pressure Fluctuations. IEEE Transactions on Instrumentation and Measurement, 2023,(72):1-11. (SCI, Top期刊, IF: 5.6)
[4] Guo Wei, He Xiufen, Liu Chuanping, Wang Li, et al. Flowrate measurement of vertical oil-gas-water slug flow based on basic temperature and differential pressure signals. Measurement, 2023, (210):112555. (SCI, Top期刊, IF: 5.6)
[5] Guo Wei, Tong Lige, Liu Chuanping, Wang Li, et al. Effect of the Heat Flow Distribution and Thermophysical Properties of the Pipe Wall and Fluid on the Wall Temperature Response to a Rising Taylor Bubble. International Communications in Heat and Mass Transfer, 2023, (149):107124. (SCI, Top期刊, IF: 7.0)
[6] Guo Wei, Tong Lige, Yang Liuan, et al. A thick-layer drying kinetic model and drying characteristics of moisture-containing porous materials. International Communications in Heat and Mass Transfer, 2023, (149):107133. (SCI, Top期刊, IF: 7.0)
[7] Guo Wei, Kong Fulin, Tong Lige, et al. A novel liquid natural gas combined cycle system integrated with liquid nitrogen energy storage and carbon capture for replacing coal-fired power plants: system modelling and 3E analysis. Energy Conversion and Management, 2023, (298):117755. (SCI, Top期刊, IF: 10.4)
[8] Guo Wei, Wang Zhentao, Liu Chuanping, et al. New formula for direct prediction of the effective thermal conductivity of the ellipsoidal granular bed at high temperatures. Industrial & Engineering Chemistry Research, 2023, 62(50):21811–21821. (SCI, 国际三大权威化工期刊, IF: 4.2)
[9] Guo Wei, Wang Li, Liu Chuanping. Prediction of gas–liquid two-phase flow rates through a vertical pipe based on thermal diffusion. Industrial & Engineering Chemistry Research, 2021, 60(6):2686-2697. (SCI, 国际三大权威化工期刊, IF: 4.3)
[10] Guo Wei, Liu Chuanping, Wang Li. Temperature fluctuation on pipe wall induced by gas–liquid flow and its application in flow pattern identification. Chemical Engineering Science, 2021, (234):116568. (SCI, Top期刊, IF: 4.9)
[11] Guo Wei, Liu Chuanping, Wang Li, Huang Ruolin. Response of thermal diffusion to gas–liquid stratified/wave flow and its application in measurement. Chemical Engineering Science, 2020, (225):115789. (SCI, Top期刊, IF: 4.3)
[12] Guo Wei, Wang Li, Liu Chuanping. Thermal diffusion response to gas–liquid slug flow and its application in measurement. International Journal of Heat and Mass Transfer, 2020, (159):120065. (SCI, Top期刊, IF: 5.6)
代表性会议论文/报告:
[1] Guo Wei. Flowrate measurement of vertical oil-gas-water slug flow based on thermal diffusion. The 1st World Conference on Multiphase Transportation, Conversion & Utilization of Energy (MTCUE), Xi’an, China, 2022. (Outstanding Paper Award)
[2]郭伟.气液多相流的热扩散式测量新方法研究,中国工程热物理学会多相流学术年会,上海,中国,2023.(邀请报告)
[3]郭伟.基于温度反演的气液两相流流型识别与流量测量,第一届全国多相流测试青年论坛,郑州,中国,2024.(邀请报告)
专利
1.郭伟,王立,刘传平. 一种利用压力波动测量气液多相流流量的方法,发明专利,ZL201911260918.9
2.王立,郭伟,刘传平,童莉葛,尹少武. 基于热扩散原理的气液多相流流型识别装置及方法,发明专利,ZL202010317359.7
2.王立,郭伟,刘传平,童莉葛,尹少武. 基于热扩散原理的气液多相流流型识别装置及方法,发明专利,ZL202010317359.7
获奖
1.北京市“青年人才托举工程”入选者,北京市科学技术协会,2024
2. MTCUE-2022国际会议最佳论文奖,2022
3.指导本科生获中国国际“互联网+”大学生创新创业大赛(北京赛区)二等奖,2021
2. MTCUE-2022国际会议最佳论文奖,2022
3.指导本科生获中国国际“互联网+”大学生创新创业大赛(北京赛区)二等奖,2021
代表性科研项目
主持:
1.国家自然科学基金青年项目,油气水弹状流离散相油滴变形/运动行为及其对边界层瞬态传热作用机制(No.52406174),2025-2027
2.广东省基础与应用基础研究区域联合基金青年项目,基于非稳态温度场的油气水多相流流动参数反演理论与方法(No.2022A1515110588),2022-2025
3.中国博士后科学基金面上项目,油气水三相弹状流油水分布及其对壁面传热影响机制(No.2022M720406),2022-2023
4.中央高校基本科研业务费,垂直管内非互溶双组分混合液的管壁热扩散响应规律(No.FRF-TP-22-080A1),2022-2024
参与:
1.国家重点研发计划课题,基于热质传递强化的火化机优化设计及其示范(No. 2022YFC3800401),2022-2026
2.国家重点研发计划项目(政府间国际科技合作),农特产品低碳保质干燥技术研发(No.2022YFE0120900),2023-2024
3.国家重点研发计划课题,含凝结性尘粒高温烟气净化及余热回收技术(No.2016YFB0601101),2016-2019
1.国家自然科学基金青年项目,油气水弹状流离散相油滴变形/运动行为及其对边界层瞬态传热作用机制(No.52406174),2025-2027
2.广东省基础与应用基础研究区域联合基金青年项目,基于非稳态温度场的油气水多相流流动参数反演理论与方法(No.2022A1515110588),2022-2025
3.中国博士后科学基金面上项目,油气水三相弹状流油水分布及其对壁面传热影响机制(No.2022M720406),2022-2023
4.中央高校基本科研业务费,垂直管内非互溶双组分混合液的管壁热扩散响应规律(No.FRF-TP-22-080A1),2022-2024
参与:
1.国家重点研发计划课题,基于热质传递强化的火化机优化设计及其示范(No. 2022YFC3800401),2022-2026
2.国家重点研发计划项目(政府间国际科技合作),农特产品低碳保质干燥技术研发(No.2022YFE0120900),2023-2024
3.国家重点研发计划课题,含凝结性尘粒高温烟气净化及余热回收技术(No.2016YFB0601101),2016-2019