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学习工作简历:
本科及以上学位:
2004.09 – 2010.07,集团,机械工程集团,热能工程专业,博士
2000.09 – 2004.7,集团,机械工程集团,热能工程专业,学士
工作至今的经历:
2010.10 – 2012.11,集团,机械工程集团,博士后,讲师
2015.02 – 2015.08,加拿大英属哥伦比亚大学(UBC),材料科学,访问学者
2013.02 – 2016.07,集团,机械工程集团,热科学与能源工程系,讲师
2016.07 – 2023.06,集团,澳门威尼斯官网,热科学与能源工程系,副教授
2023.07 – 至今,集团,澳门威尼斯官网,热科学与能源工程系,教授
研究领域:
1. 工业热过程仿真模型、工艺优化算法
2. 气雾、水雾、水射流冷却
3. 带钢连续热处理设备和过程
4. 铝合金铸造和铝合金淬火热处理
公司产品:
已毕业硕士生1位。协助指导已毕业博士生3位,硕士生5位。
本科生课程:
1. 传热传质学
2. 热过程模拟软件实训
代表性论文及著作:
著作/教材:
《带钢连续热处理炉内热过程数学模型及过程优化》,冶金工业出版社,2014(豆瑞锋,温治)
代表性论文:
(1) Ruifeng Dou, A. B. Phillion*. Application of a pore fraction hot tearing model to directionally solidified and direct chill cast aluminum alloys. Metallurgical and Materials Transactions A, 2016, 47A: 4217-4225.
(2) Ruifeng Dou*, Qiuhao Li, Cheng Zhu, Rongzhao Zhang, Zhi Wen, Xunliang Liu. Experimental study on the enhancement of contact heat transfer by micro fin. International Journal of Heat and Mass Transfer, 2019, (134): 482-488.
(3) Rongzhao Zhang, Ruifeng Dou*, Wen Zhi, Xunliang Liu. Effects of pressure and temperature on the effective thermal conductivity of oriented silicon steel iron core under atmospheric condition. International Journal of Heat and Mass Transfer, 2018, (125): 780-787.
(4) Sizong Zhang, Zhi Wen, Gan Wang, Ruifeng Dou*, Xunliang Liu, Xianwei Li. The effects of operational parameters on flue gas recirculation iron ore sintering process: sensitivity analysis based on numerical simulation and industrial onsite experimental validation. Ironmaking & Steelmaking.
(5) Peipei Yang, Zhi Wen, Ruifeng Dou*, Xunliang Liu. Heat transfer characteristics in random porous media based on the 3D lattice Boltzmann method, International Journal of Heat and Mass Transfer, 2017, (109): 647-656.
(6) Peipei Yang, Zhi Wen, Ruifeng Dou*, Xunliang Liu. Permeability in multi-sized structures of random packed porous media using three-dimensional lattice Boltzmann method, International Journal of Heat and Mass Transfer, 2017, (106): 1368-1375.
(7) Peipei Yang, Zhi Wen, Ruifeng Dou*, Xunliang Liu. Effect of random structure on permeability and heat transfer characteristics for flow in 2D porous medium based on MRT lattice Boltzmann method. Physics Letters A, 2016, (380): 2902-2911.
(8) Qiang Guo, Zhi Wen, Ruifeng Dou*. Experimental and numerical study on the transient heat-transfer characteristics of circular air-jet impingement on a flat plate, International Journal of Heat and Mass Transfer, 2017.01, (104): 1177-1188.
(9) Ruifeng Dou*, Tianran Ge, Xunliang Liu, Zhi Wen, Effects of contact pressure, interface temperature, and surface roughness on thermal contact conductance between stainless steel surfaces under atmosphere condition, International Journal of Heat and Mass Transfer, 2016, (94): 156-163.
(10) Ruifeng Dou*, Zhi Wen, Gang Zhou, 2D axisymmetric transient inverse heat conduction analysis of air jet impinging on stainless steel plate with finite thickness, Applied Thermal Engineering, 2016, (93): 458-457.
(11) Ruifeng Dou*, Zhi Wen, Gang Zhou, Heat transfer characteristics of water spray impinging on high temperature stainless steel plate with finite thickness, International Journal of Heat and Mass Transfer, 2015, (90): 376-387.
(12) Ruifeng Dou*, Zhi Wen, Gang Zhou, Xunliang Liu, Xiaohong Feng, Experimental study on heat-transfer characteristics of circular water jet impinging on high-temperature stainless steel plate, Applied Thermal Engineering, 2014, (62): 738-746.
(13) Yang Peipei, Wen Zhi, Dou Ruifeng*, Chen Yuqin, Double MRT-lattice Boltzmann model for simulating impinging jet flow and heat transfer, International Journal of Heat and Mass Transfer, 2015, (86): 302-308.
(14) Xiong Zhang, Zhi Wen, Ruifeng Dou*, Gang Zhou, Fan Zhang, Experimental study of the air-atomized spray cooling of high-temperature metal, Applied Thermal Engineering, 2014, (71): 43-55.
(15) Xiong Zhang, Zhi Wen, Ruifeng Dou*, Gang Zhou, Zhiqiang Li, Evolution of microstructure and mechanical properties of cold-rolled SUS430 stainless steel during a continuous annealing process, Materials Science and Engineering A, 2014, (598): 22-27.
(16) 豆瑞锋,温治,周钢,刘训良*,冯霄红,罗建枫,水射流冲击冷却过程靶面热流密度测试方法的改进,集团学报,2013,35(12):1653 ~ 1658. (Ruifeng Dou, Zhi Wen, Gang Zhou, Xunliang Liu*, Xiaohong Feng, Jianfeng Luo. Improvement of measurement methods for surface heat flux under water jet impinging. Journal of University of Science and Technology Beijing, 2013, 35(12): 1653 ~ 1658)
(17) 豆瑞锋,温治*,董斌,程淑明,冯霄红,李志,基于可行工况集的带钢连续热处理过程优化策略,集团学报,2012,34(8):943 ~ 951. (Ruifeng Dou, Zhi Wen*, Bin Dong, Shuming Cheng, Xiaohong Feng, Zhi Li. Optimization strategies of steel strip continuous heat treatment based on feasible sets, Journal of University of Science and Technology Beijing, 2012, 34(8): 943 ~ 951)
(18) Yang Peipei, Wen Zhi, Dou Ruifeng*, Chen Yuqin, Double MRT-lattice Boltzmann model for simulating impinging jet flow and heat transfer, International Journal of Heat and Mass Transfer, 2015, (86): 302-308.
(19) 杨培培,温治,豆瑞锋*,罩式退火炉热过程数学模型与实验验证,中南大学学报(自然科学版),2015,46(4):1518-1526. (Peipei Yang, Zhi Wen, Ruifeng Dou*. Thermal process mathematical model and experimental verification in Bell-type annealing furnace. Journal of Central South University (Science and Technology), 2015, 46(4): 1518-1526)
(20) Xiong Zhang, Zhi Wen, Ruifeng Dou*, Gang Zhou, Fan Zhang, Experimental study of the air-atomized spray cooling of high-temperature metal, Applied Thermal Engineering, 2014, (71): 43-55.
(21) Xiong Zhang, Zhi Wen, Ruifeng Dou*, Gang Zhou, Zhiqiang Li, Evolution of microstructure and mechanical properties of cold-rolled SUS430 stainless steel during a continuous annealing process, Materials Science and Engineering A, 2014, (598): 22-27.
(22) 张雄,温治,豆瑞锋*,周钢,李志强,退火温度对430不锈钢冷轧板组织和力学性能的影响,集团学报,2014,36(12):1650-1655. (Xiong Zhang, Zhi Wen, Ruifeng Dou*, Gang Zhou, Zhiqiang Li. Effect of annealing temperature on the microstructure and mechanical properties of cold-rolled 430 stainless steel. Journal of University of Science and Technology Beijing, 2014, 36(12): 1650-1655)
(23) 王乃帅,张雄,温治,豆瑞锋*,430不锈钢冷轧板高温退火过程中再结晶织构的定量分析,集团学报,2014,36(5):632-638. (Naishuai Wang, Xiong Zhang, Zhi Wen, Ruifeng Dou*. Quantitative analysis of the recrystallized textures of cold-rolled 430 stainless steel during high-temperature annealing. Journal of University of Science and Technology Beijing, 2014, 36(5): 632-638)
(24) 张雄,温治,豆瑞锋*,张瑞杰,李志强,430不锈钢冷轧板再结晶组织演变以及动力学模型,材料热处理学报,2014,(01):212-216. (Xiong Zhang, Zhi Wen, Ruifeng Dou*, Ruijie Zhang, Zhiqiang Li. Recrystallization kinetics and microstructure evolution during annealing of cold rolled 430 stainless steel. Transactions of Materials and Heat Treatment, 2014, (01): 212-216)
(25) 方旭,温治,豆瑞锋,周钢,庄惟琦. 热轧不锈钢带卧式连续退火炉加热过程数值模拟,冶金自动化,2011.09,35(5):43-47,64. (Fang Xu, Wen Zhi, Dou Ruifeng, Zhou Gang, Zhuang Weiqi. Numerical simulation of heating process in horizontal continuous annealing furnace of hot-rolled stainless steel strip. Metallurgical Industry Automation, 2011.09, 35(5): 43-47, 64)
(26) Peipei Yang, Zhi Wen, Ruifeng Dou. Heating process simulation of steel coil in Bell-type annealing furnace. Heat transfer—Asian Research, 2016, 45(8): 714-729
(27) 丁翠娇,豆瑞锋*,陈超,田大鹏,郭强,温治. 基于二维瞬态导热反问题方法测量气体射流冲击换热系数,冶金能源,2017,36(1):28-33
(28) 丁翠娇,豆瑞锋*,杨超,陈超,郭强,温治. 基于蒙特卡洛法的连续热处理立式炉加热段带温计算模型,工业加热,2017,46(1):15-18
(29) 豆瑞锋,冯妍卉*,张欣欣,温治.《传热传质学》课程中培养员工创新思维的教学实践,高等工程教育研究,2017.12
会议论文(2012年至今):
(1) 豆瑞锋,冯妍卉*,张欣欣,温治.《传热传质学》课程中培养员工创新思维的教学实践,2016年教育部能动类专业教学指导委员会全体会议暨全国能源动力类专业教学改革会议,沈阳,中国,2016.05.27-29. 优秀论文奖 (高等工程教育研究,增刊录用2017.06)
(2) 豆瑞锋,杨惠杰,温治.沸腾换热状态与表面温度波动的关系研究.2016年中国工程热物理学会传热传质学分会,北京,中国,2016.10.21-10.23
(3) 豆瑞锋,温治*,张雄,周钢,李志,冯霄红,冷轧不锈钢连续退火过程带钢温度、晶粒和力学性能预测模型,2015年第十届中国钢铁年会,上海,中国,2015.10.21-10.23
(4) 豆瑞锋*,杨惠杰,葛天然,温治,测量误差对导热反问题计算精度的分析, 2015年中国工程热物理学会传热传质学分会,大连,中国,2015.10.30-11.02
(5) 豆瑞锋,温治*,苏福永,带钢连续热处理过程数学模型的研究现状,2015年第八届全国能源与热工学术年会,大连,中国,2015.08.26-08.28
(6) Chen Yuqin, Wen Zhi, Dou Ruifeng*, Yang Peipei, Research on the fluid flow and heat transfer to the impinging slot jet based on the lattice Boltzmann method, The Asian Symposium on Computational Heat Transfer and Fluid Flow 2015, Busan, Korea, 2015.11. 22-11.25
(7) Peipei Yang, Zhi Wen, and Ruifeng Dou. Numerical Simulation of flow in disordered porous media with multiple-relaxation-time lattice Boltzmann method [C]. The Asian Symposium on Computational Heat Transfer and Fluid Flow 2015, BuSan, Korea, 2015.11. 22-11.25
专利、获奖、鉴定
专利:
(1) 发明专利:一种带卷材料径向等效导热系数的测量装置及测量方法,中国,ZL201310334215.2
(2) 发明专利:一种回转式固定床化学链燃烧反应装置,中国,ZL201210266534.x
(3) 发明专利:一种连续运行的移动床化学链反应系统,中国,ZL201310331443.4
(4) 实用新型:一种带卷材料径向等效导热系数的测量装置,中国,ZL201320470723.9
(5) 实用新型:一种回转式固定床化学链燃烧反应装置,中国,ZL201220375279.8
(6) 计算机软件著作权:基于蒙特卡洛法三维空间角系数计算软件,中国,2015SR232630
(7) 实用新型:一种鼓抽式自预热燃烧平面加热器,中国,ZL201621408873.7
(8) 实用新型:一种基于太阳能供电的智能空气汲水装置,中国,ZL201720217549.5
获奖:
(1) 2015-2016学年校级优秀本科生导师荣誉
(2) 获2017年北京市高等公司产品成果二等奖
(3) 获2017-2018年“集团先进工作者”称号
(5) 获第二十八届“集团公司产品成果奖”一等奖
(6) 2019年获集团第十一届青年教师教学基本功比赛三等奖。
(7) 2019年获澳门威尼斯官网优秀共产党员。
(8) 2019年指导的本科生参加《首届北京市老员工节能节水低碳减排社会实践与科技竞赛》获省部级特等奖。
科研项目:
1. 北京市自然科学基金项目“铝合金铸造过程热量、质量传输特性及其对热裂缺陷的影响机制研究”,2019–2021
2. 首钢股份公司迁安钢铁公司“卷铁心退火模型研究及操作优化”,2018-2020
3. 2014/01 – 2016/12,国家自然科学青年基金项目,51306016,水射流冲击高温粗糙靶面的换热特性研究,项目负责人
4. 2013/01 – 2016/12,国家自然科学基金面上项目,51276015,移动床气固反应器多相耦合热质传递机制研究,主要参加人
5. 2017/01 – 2019/12,国家自然科学基金面上项目,51676013,非水锂空气电池空气电极放电过程的介观尺度模拟,主要参加人(在研项目)
6. 2016/07 – 2021/07,国家重点研发计划:水资源高效开发利用;课题名称:钢铁流程低品位余热高效利用技术开发与研究;所属项目:基于钢铁流程余热利用的海水淡化技术研发及示范,课题骨干(在研项目)
7. 2012.09 – 2013.11,宝钢不锈钢有限公司,罩式退火炉热过程数学模型及工艺优化研究,主要完成人
8. 2012.05 - 2013.10,宝钢工业炉工程技术有限公司,立式连续退火炉内带钢及炉辊热力耦合模型研究,主要完成人
9. 2014.07 - 2015.06,宝钢集团有限公司,典型产能下废气循环烧结过程质-热诊断测试及分析研究,主要完成人
10. 2011.11 - 2013.05,山西太钢不锈钢股份有限公司,不锈钢带4#冷线热工过程机理模型及工艺优化,主要完成人
11. 2015.01 - 2016.07,武汉钢铁(集团)公司,带钢连续退火过程温度分布模拟计算研究,主要完成人
12. 2011.12 - 2016.12,重庆赛迪热工环保工程技术有限公司,冶金炉窑节能与环保关键技术与研究,主要完成人
13. 2014.09 - 2015.08,中央高校基本科研业务费(校级项目),气体射流冲击瞬态换热特性的实验研究,项目负责人
14. 2015.09 - 2016.08,中央高校基本科研业务费(校级项目),高温粗糙表面接触换热规律的实验研究,项目负责人
15. 2017.01 - 2017.12,中央高校基本科研业务费(校级项目),多孔介质结构随机性对传输特性的影响机制研究,项目负责人
