个人简介
李曦,男,1977年10月生,博士、教授、博导。2005年毕业于上海交通大学自动化系并获工学博士学位;2007年被18luck新利电竞
破格聘为副教授;2010年被评为博士生导师;2011年赴美国密歇根大学(安娜堡)访问研究一年;2012年晋升为18luck新利电竞
教授;曾入选教育部新世纪优秀人才、湖北省杰青、武汉市“3551”光谷人才与校“华中卓越学者”计划;与美国、英国、法国、意大利等国科研院所与企业开展深度学术交流合作。
长期从事新能源与储能系统控制等领域的教学科研与成果转化工作。主持承担国基金(智能电网联合)重点/面上/青年项目、国家/省科技支撑计划课题、深圳/武汉市科技计划重点/面上项目、“863”重点项目子课题与企业项目等三十余项;以第一或通讯作者发表SCI期刊(中科院一/二区)论文四十余篇、授权中国/美国发明专利及软著三十余项;多项专利等成果已转化企业并产业化,获得良好经济效益;主持研发的固体氧化物基燃料电池氧动力学特性测控技术与成果,被湖北省科技厅技交所组织的院士专家组鉴定为国际领先;以第一完成人身份获中国商业联合会科技进步特等奖(省部级)、日内瓦国际发明展金奖、湖北省科技进步二等奖;牵头和参与制定了固体氧化物燃料电池(SOFC)相关国家能源行业标准多项。
主要学术兼职:
担任/曾任国家重点研发计划/国基金/省市科技项目和奖励的通讯与会评专家、SCI国际期刊编委与评审人。
现为图像信息处理与智能控制教育部重点实验室副主任、IEEE PES储能技术委员会(中国)氢储能技术分委会理事、国家电网公司总部科技项目责任专家、中国自动化学会车辆控制与智能化专业委员会委员/能源互联网专业委员会委员、国家能源行业高温燃料电池标准委员会委员。
主要研究领域
人工智能+能源;智慧能源大数据;氢能与燃料电池;微能网管控;陶瓷智能传感
主要研究方向:
(1)构建新能源(含SOFC(固体氧化物燃料电池)、PEMFC(质子交换膜燃料电池))与储能(含SOEC(固体氧化物电解池)、PEMEC(质子交换膜电解池)、锂电、飞轮与超级电容等)综合能源系统;面向系统实测或软测量大数据,深度学习与机理建模分析其冷/热/电/气等多能域耦合和性能演变机制,开展新能源与储能系统级性能评估、故障诊断与健康管控方法的研究,研制相应仪器装备,保障微能网或运载动力用新能源与储能系统全生命周期高效稳定运行。
(2)高精快速陶瓷智能传感技术与装备,用于解决交通、能源与环保等领域的节能减排共性问题。
招生说明:
专业背景:自动化、测控技术、电气工程、机械电子、动力工程及工程热物理等相关专业;
学生要求与去向:
(1) 数学、英语基础扎实,具有积极主动、坚韧务实、勇于挑战的学术品质与协作并进的团队精神;
(2) 欢迎上述相关专业学士、硕士和博士来本实验室攻读硕士、博士学位或从事博士后研究;
(3) 实验室已毕业博士和硕士,其中有留校、留学或其他重点高校任教以及北京、上海、广州、深圳、杭州、武汉等国内各大知名公司与企业院所任职。
主持承担的主要科研项目:
(1)深圳科技创新计划重点项目(JCYJ20210324115606017);
(2)国家自然科学基金(智能电网联合)重点项目(U2066202);
(3)武汉市科技前沿项目(2018010401011290);
(4)国家自然科学基金项目(61873323);
(5)深圳科技创新计划项目(JCYJ20170818163921328);
(6)深圳科技创新计划项目(JCYJ20170307160923202);
(7)国家自然科学基金项目(61573162);
(8)国家科技支撑计划课题(2015BAI01B08);
(9)湖北省科技支撑计划(2015BEC059);
(10)国家自然科学基金项目(60804031);
(11)教育部新世纪优秀人才支持计划(NCET-10-0411);
(12)湖北省杰出青年基金项目(2016CFA037);
(13)武汉市青年科技晨光计划(201150431120)
(14)“十二.五”国家科技部“863”主题项目(固体氧化物燃料电池领域)子课题(2011AA050702);
(15)“十一.五”国家科技部“863”目标导向类项目(固体氧化物燃料电池领域)子课题(2006AA05Z148)。
参与的主要科研项目:
(1)“十.五”国家科技部“863”重点项目(熔融碳酸盐燃料电池领域)(2003AA517020);
(2)工信部工业强基工程,车用智能型氮氧传感器(0714-EMTC-02-00443,2018)。
近年来第一或通讯作者的部分论文(*表示通讯作者):
1. Jingxuan Peng, Xi Li*, et al; Solid oxide fuel cell (SOFC) performance evaluation, fault diagnosis and health control: A review.
Journal of Power Sources, 505(2021) 230058.
2. Xiaolong Wu, Xi Li*, et al; Afterburner temperature safety assessment for solid oxide fuel cell system based on computational fluid dynamics.
Journal of Power Sources, 496 (2021) 229837.
3. Yi Zheng, Xi Li*, et al; Data-driven fault diagnosis method for the safe and stable operation of solid oxide fuel cells system
Journal of Power Sources, 490C (2021) 229561.
4. Yuanwu Xu, Xi Li*, et al; Mechanism Model-Based and Data-Driven Approach for the Diagnosis of Solid Oxide Fuel Cell Stack Leakage
Applied Energy, 286C(2021) 116508.
5. Xiaojuan Wu, Xi Li*, et al; Discharge performance recovery of a solid oxide fuel cell based on a prognostic-based control strategy.
Journal of Power Sources, 480 (2020)229102.
6. Dongqi Zhao, Xi Li*, et al; Dynamic Behaviour and Control Strategy of High Temperature Proton Exchange Membrane Electrolyzer Cells (HT-PEMECs) for Hydrogen Production.
International Journal of Hydrogen Energy, 2020, 45(51): 26613-26622.
7. Xiaobo Zhong, Xi Li*, et al; Root cause analysis and diagnosis of solid oxide fuel cell system oscillations based on data and topology-based model.
Applied Energy, 267C (2020) 114968.
8. Xiaolong Wu, Xi Li*, et al; Extended-range electric vehicle-oriented thermoelectric surge control of a solid oxide fuel cell system.
Applied Energy, 263C (2020) 114628.
9. Yuanwu Xu, Xi Li*, et al; Development of solid oxide fuel cell and battery hybrid power generation system.
International Journal of Hydrogen Energy, 2020, 45(15): 8899-8914.
10. Xiaolong Wu, Xi Li*, et al; Fault detection and assessment for solid oxide fuel cell system gas supply unit based on novel principal component analysis.
Journal of Power Sources, 436C (2019)226864.
11. Tao Xue, Xi Li*, et al; Fault-tolerant control for steam fluctuation in SOFC system with reforming units.
International Journal of Hydrogen Energy, 2019,44(49): 23360-23376.
12. Xiaolong Wu, Xi Li*, et al; Health state prediction and analysis of SOFC system based on the data-driven entire stage experiment.
Applied Energy, 2019; 248:126-140.
13. Xiaojuan Wu, Xi Li*, et al; Temperature gradient control of a solid oxide fuel cell stack.
Journal of Power Sources, 2019; 414(2): 345-353.
14. Xiaojuan Wu, Xi Li*, et al; Control of a solid oxide fuel cell stack based on unmodeled dynamic compensations.
International Journal of Hydrogen Energy, 2018, 43(49):22500-22510.
15. Jianhua Jiang, Xi Li*, et al; High Efficiency Thermoelectric Cooperative Control of a Stand-alone Solid Oxide Fuel Cell System with an Air Bypass Valve.
Energy, 2018, 152:13-26.
16. Wu Xiao-long, Jing Su-wen, Xu Yuan-wu, Li Xi*. Fault analysis and diagnosis of solid oxide fuel cell system.
IECON 2017, IEEE Industrial Electronics Society, 2017, 43:7146-7150.
17. Huan Cheng,Xi Li*, et al. Control-Oriented Modeling Analysis and Optimization of Planar Solid Oxide Fuel Cell System.
International Journal of Hydrogen Energy, 2016, 41(47):22285-22304.
18. Hongliang Cao, Xi Li*, et al. Thermal management oriented multivariable robust control of a kW scale solid oxide fuel cell stand-alone system.
IEEE Transactions on Energy Conversion, 2016, 31(2):596 - 605.
19. Xiaowei Fu, Yuhan Xiang, Xi Li*, et al. A Novel Ni/YSZ Anode Image Segmentation Method for Solid Oxide Fuel Cell Electrodes Microstructure.
Fuel Cells, 2016, 16(6):810-821.
20. Xiaowei Fu, Yuhan Xiang, Xi Li*, et al. Solid oxide fuel cell anode image segmentation based on a novel quantum-inspired fuzzy clustering.
Journal of Power Sources, 2015, 300(1):57-68.
21. Jianhua Jiang, Xi Li*, et al. Modeling and Model-based Analysis of SOFC Thermal-Electrical Management System with an Air Bypass Valve.
Electrochimica Acta, 2015, 177(20):250-263.
22. Lin Zhang, Xi Li*, et al. Dynamic modeling and analysis of a 5-kW solid oxide fuel cell system from the perspectives of cooperative control of thermal safety and high efficiency.
International Journal of Hydrogen Energy, 2015, 40(1):456-476.
23. Lin Zhang, Xi Li*, et al. Control strategy for power management, efficiency-optimization and operating-safety of a 5-kW solid oxide fuel cell system.
Electrochimica Acta, 2015, 177(20):237-249.
24. Huan Cheng,Xi Li*, et al. A Nonlinear Sliding Mode Observer for the Estimation of Temperature Distribution in a Planar Solid Oxide Fuel Cell.
International Journal of Hydrogen Energy, 2015, 40(1): 593-606.
25. Jianhua Jiang, Xi Li*, et al. Control-oriented dynamic optimization of steam reformer with an improved optimization algorithm.
International Journal of Hydrogen Energy, 2013, 38(26): 11288-11302.
26. Cao HongLiang, Xi Li*, et al. Thermal management oriented steady state analysis and optimization of a kW scale solid oxide fuel cell stand-alone system for maximum system efficiency. International Journal of Hydrogen Energy, 2013, 35(4): 1749-1758.
27. Jiang Jianhua, Li Xi*, et al. Thermal management of an independent steam reformer for a solid oxide fuel cell with constrained generalized predictive control.
International Journal of Hydrogen Energy, 2012, 37(17): 12317-12331.
28. Li Xi*, Deng ZhongHua, Qin Yi, et al. Parameter optimization of thermal-model-oriented control law for PEM fuel cell stack via novel genetic algorithm.
Energy Conversion and Management, 2011, 52(11): 3290-3330.
29. Li Xi*, Deng ZhongHua, Qin Yi, et al. Novel variable structure control for the temperature of PEM fuel cell stack based on the dynamic thermal affine model.
Energy Conversion and Management, 2011, 52(11): 3265-3274.
30. Cao HongLiang, Li Xi*, et al. Dynamic modeling and experimental validation for the electrical coupling in a 5-cell solid oxide fuel cell stack in the perspective of thermal coupling.
International Journal of Hydrogen Energy, 2011, 36(7): 4409-4418.
31. Yang Jie, Li Xi*, et al. Parameter optimization for tubular solid oxide fuel cell stack based on the dynamic model and an improved genetic algorithm.
International Journal of Hydrogen Energy, 2011, 36(10): 6160-6174.
32. Cao HongLiang, Deng ZhongHua, Li Xi*, et al. Dynamic modeling of electrical characteristics of solid oxide fuel cells using fractional derivatives.
International Journal of Hydrogen Energy, 2010, 35(4): 1749-1758.
33. Deng ZhongHua, Cao HongLiang, Li Xi*, et al. Generalized predictive control for fractional order dynamic model of solid oxide fuel cell output power.
Journal of Power Sources, 2010, 195(24): 8097-8103.
34. Yang Jie, Li Xi*, et al. Predictive control of solid oxide fuel cell based on an improved Takagi-Sugeno fuzzy model.
Journal of Power Sources, 2009, 193(2): 699-705.
35. Yang Jie, Li Xi*, et al. Control-oriented thermal management of solid oxide fuel cells based on a modified Takagi-Sugeno fuzzy model.
Journal of Power Sources, 2009, 188(2): 475-482.
近年来的部分发明专利(均为第一完成人):
[1] 基于分数阶滑模变结构SOFC系统热电协同控制方法,ZL 201610150888.6
[2] 一种固体氧化物燃料电池电堆故障诊断方法和系统,ZL 201710354426.0
[3] 一种固体氧化物燃料电池系统的故障检测系统及方法,ZL 2018103197081
[4] 一种基于dSPACE的固体氧化物燃料电池热电特性模拟系统,ZL 201510448076.5
[5] 一种固体氧化物燃料电池系统,ZL 201510684054.9
[6] Thermoelectric Cooperative Control Method for SOFC System Based on Fractional Order Sliding Mode Variable Structure,US10396381B2,USA.
[7] 一种确定固体氧化物燃料电池系统参数的方法,ZL 201410185972.2
[8] 一种固体氧化物燃料电池电堆温度分布估计方法,ZL 201410184688.3
[9] 一种固体氧化物燃料电池系统及热电协同控制方法,ZL 201310104574.9
[10] 一种面向海洋浮标的固体氧化物燃料电池能量管理系统,ZL 201310552132.0
[11] 一种海洋浮标用固体氧化物燃料电池混合能量管理系统,ZL201710621118.X
[12] 一种固体氧化物燃料电池的混合能量控制系统及控制方法,ZL2018103044512
[13] 用于固体氧化物燃料电池系统的控制器,ZL 201210546452.0
[14] 平衡SOFC系统的系统输出效率与NOx排放量的优化系统及方法,ZL 2019113777853
[15] 一种电能管控系统,ZL 201910510396.7
[16] 一种氮氧化物传感器控制器,ZL 201911009729.4
[17] 一种氮氧传感器控制系统,ZL201811433202.X
[18] 一种宽域氧传感器控制器仿真系统,ZL 201510689106.1
[19] 一种宽域氧传感器控制器,ZL 201610637514.7
[20] 一种人工气候室控制方法,ZL 201410269592.7
[21] 一种层流冷却温度控制方法,ZL 201510729474.4
[22] 一种确定热轧带钢层流冷却温度的方法,ZL 201410110758.0
[23] 一种层流冷却温度场的建模方法及系统,ZL 201310479981.8
[24] 一种层流冷却温度控制方法及系统,ZL 201310600841.1
软件著作权(均为第一完成人):
[1] 层流冷却过程模型预测控制仿真软件,2014SR046475
[2] 层流冷却生产过程预测仿真软件,2013SR107758
奖励与荣誉:
(1) 日内瓦国际发明展金奖(国际三大发明展之一,第1完成人,2018);
(2) 湖北省科技进步二等奖(省部级,第1完成人,2018);
(3) 中国商业联合会科技进步特等奖(省部级,第1完成人,2017);
(4) 18luck新利电竞
,“五四”青年奖章(2015);
(5) 18luck新利电竞
,优秀班主任(2014);
(6) “台达杯”高校自动化设计大赛一等奖 (教育部教指委等主办,指导教师,2014);
(7) 18luck新利电竞
,华中学者 (2012);
(8) 教育部新世纪优秀人才支持计划(2011);
(9) 18luck新利电竞
,学术新人奖(2010);
(10) 18luck新利电竞
,优秀青年教工 (2009)。
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