Zhuo Wang
·Personal Information
华中科技大学人工智能与自动化学院讲师。主要研究领域氢能、智能电网、航空航天自动化测试系统、电力储能系统。
科研成果:
[2024] Zeng Linghong, Fu Jun, Sheng Chuang, Li Beijia, Guo Ziang, Xiang Qian, Wang Jingjing, Shan Xinkai, Fu Xiaowei, Deng Zhonghua, Wang Zhuo, Li Xi. Energy management for proton exchange membrane fuel cell-lithium battery hybrid power systems based on real-time prediction and optimization under multimodal information[J]. Journal of Cleaner Production, 2024, 434.(共同通讯)
[2024] Sheng Chuang, Guo Ziang, Lei Jingzhi, Zhang Shuyu, Zhang Wenxuan, Chen Weiming, Jiang Xuefeng, Wang Zhuo, Li Xi. Optimal energy management strategies for hybrid power systems considering Pt degradation[J]. Applied Energy, 2024, 360. (共同通讯)
[2024] Wang Zhuo, Zhang Jun, Liu Jiantao, Huang Jingjing, Zhu Guorui, Yu Chaofan, Zhou Hongtao. Data association load uncertainty and risk aversion in electricity markets with data center participation in the demand response[J]. Energy Reports, 2024, 11: 483-497.(第一作者)
[2024] Wan Yiming, Du Songtao, Yan Jiayu, Wang Zhuo. Towards fast embedded moving horizon state-of-charge estimation for lithium-ion batteries[J]. Journal of Energy Storage, 2024, 78.
[2023] Zhang Shuyu, Jiang Chang, Liu Xingbo, Sheng Chuang, Li Guang, Jin Bing, Wang Zhuo, Li Xi. Design and research of a novel solid oxide fuel cell with thermal energy storage for load tracking[J]. Energy Conversion and Management, 2023, 294: 117560.(共同通讯)
[2023] Wu Xiaolong, Li Yu, Gao Zilin, Xu Yuanwu, Peng Jingxuan, Xia Zhiping, Hu Lingyan, Hu Jiangong, Wang Zhuo, Li Xi. Robust Control of RSOC/Li-ion Battery Hybrid System Based on Modeling and Active Disturbance Rejection Technology[J]. Atmosphere, 2023, 14(6): 947.
[2023] Wang Zhen, Wang Jie, Sun Can, Xiang Hongfu, Zhu Renjie, Fu Xiaowei, Wang Zhuo, Li Xi. A Fuzzy Decoupling Compensator With Direction Control for NOx Sensor[J]. IEEE Sensors Journal, 2023, 23(24): 31108-31116.
[2023] Peng Jingxuan, Huang Jian, Li Yuanzheng, Xu Yuan-Wu, Wu Xiao-Long, Wang Zhuo, Wang Jingjing, Li Xi. Control-oriented Extraction and Prediction of Key Performance Features Affecting Performance Variability of Solid Oxide Fuel Cell System[J]. IEEE Transactions on Transportation Electrification, 2023: 1-1.(共同通讯)
[2023] Liu Guoqiang, Zhou Yihuan, Liu Xingbo, Li Zexin, Kupecki Jakub, Jin Bing, Jin Zhiyang, Wang Zhuo, Li Xi. Multiscale analysis and cost optimization of a reversible solid oxide cell system with coordinated degradation and efficiency considering Ni-particle coarsening[J]. Journal of Cleaner Production, 2023, 424: 138823.(共同通讯)
[2023] Liu G., Wang Z., Liu X., Kupecki J., Zhao D., Jin B., Wang Z., Li X. Transient analysis and safety-oriented process optimization during electrolysis–fuel cell transition of a novel reversible solid oxide cell system[J]. Journal of Cleaner Production, 2023, 425.(共同通讯)
[2023] Fan Kesen, Wan Yiming, Wang Zhuo, Jiang Kai. Time-efficient identification of lithium-ion battery temperature-dependent OCV-SOC curve using multi-output Gaussian process[J]. Energy, 2023, 268.
[2023] Xu Cheng, Zhang E., Yan Shuai, Jiang Kai, Wang Kangli, Wang Zhuo, Cheng Shijie. State of charge estimation for liquid metal battery based on an improved sliding mode observer[J]. Journal of Energy Storage, 2022, 45: 103701.(共同通讯)
[2022] Liang Haiyan, Wang Zhuo, Hao Guokai, Xiao Li, Sun Zhigang. Deep Reinforcement Learning for Charging Electric Vehicles With Uncertain Photovoltaic Power[C]. 2022 China Automation Congress (CAC), 2022: 1225-1231.
[2022] Jiang Jianhua, Zhou Renjie, Xu Hao, Wang Hao, Wu Ping, Wang Zhuo, Li Jian. Optimal sizing, operation strategy and case study of a grid-connected solid oxide fuel cell microgrid[J]. Applied Energy, 2022, 307: 118214.
[2022] 王卓, 王聃, 闫立东, 王民, 张宇. 伺服阀滑阀副径向间隙和圆角估计方法[J]. 液压与气动, 2022, 46(02): 176-183.(第一作者)
[2021] Liao S., Wang Z., Luo Y., Liang H. Locational marginal price forecasting using Transformer-based deep learning network[C]. 2021 40th Chinese Control Conference (CCC), 2021: 8457-8462.
[2021] Cui S. C., Wang Y. W., Liu X. K., Wang Z., Xiao J. W. Economic Storage Sharing Framework: Asymmetric Bargaining-Based Energy Cooperation[J]. Ieee Transactions on Industrial Informatics, 2021, 17(11): 7489-7500.
[2021] 王卓, 王聃, 肖力, 孙志刚. 一种电液伺服阀叠合量快速气动测量方法: CN111503090B[P]. 2021-01-15.
[2021] 王卓, 王聃, 丁忠军, 孟健, 张凌霄, 倪钢, 刘小田. 伺服阀滑阀副叠合量快速气动测量及数据分析方法[J]. 液压与气动, 2021(01): 169-173.(第一作者)
[2020] 向欣, 王卓, 禹万泓. 基于PCS7的过程仿真及控制实验设计[J]. 实验室研究与探索, 2020, 39(03): 123-127.
[2019] Wang Z., Yue D., Liu J., Xu Z. A Stackelberg Game Modelling Approach for Aggregator Pricing and Electric Vehicle Charging[C]. 2019 IEEE 28th International Symposium on Industrial Electronics (ISIE), 2019: 2209-2213.(第一作者)
[2019] Chen J., Dou C., Xiao L., Wang Z. Fusion State Estimation for Power Systems Under DoS Attacks: A Switched System Approach[J]. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 2019, 49(8): 1679-1687.
[2019] 黄川, 王卓, 肖力, 王道新. 一种电液伺服阀叠合量气动测量装置及方法: CN108591183B[P]. 2019-02-22.
[2019] 黄川, 王卓, 肖力, 王道新. 一种用于滑阀副叠合量测量的定位阀座组件: CN208487074U[P]. 2019-02-12.
[2017] 王卓, 黄川, 申振丰, 刘小田, 肖力, 孙志刚, 江金林, 朱力敏, 罗尚勤, 倪钢. 一种电液伺服阀叠合量测量装置及其测量方法: CN105841647A[P]. 2016-08-10.
[2017] 王卓, 黄川, 申振丰, 刘小田, 江金林, 朱力敏. 小流量电液伺服阀叠合量气动测量台的研制[J]. 液压与气动, 2017(05): 113-119.(第一作者)
科研项目:
[2024,参与] 面向近底航行安全的自主水下航行器递阶重构容错控制与规划,合同金额50万,委托单位:国家自然科学基金委
[2023,主持] 电液*统,合同金额76万,委托单位:有关部委
[2023,参与] 固体氧化物电池系统设备试制合同,合同金额2491万,委托单位:广东电网有限责任公司广州供电局
[2022,主持]气动配磨测试台维修和保养,合同金额5.8万,委托单位:上海航天控制技术研究所
[2022,主持]电磁阀电磁铁电磁特性测试系统,合同金额55.08万,委托单位:北京精密机电控制设备研究所
[2020,主持]mems惯组电路组件通用测试系统,合同金额205万,委托单位:上海杰瑞兆新信息科技有限公司
[2020,主持]伺服阀滑阀副搭接量测试装置,合同金额72万,委托单位:北京精密机电控制设备研究所
[2020,主持]伺服阀弹性零件刚度测量装置,合同金额45万,委托单位:北京精密机电控制设备研究所
[2020,主持]伺服阀弯曲刚度自动测量仪,合同金额25.3271万,委托单位:武汉华中航空测控技术有限公司
[2020,主持]半物理控制仿真软件,合同金额19.1729万,委托单位:西安中科微星光电科技有限公司
[2019,主持]小流量伺服阀滑阀副搭接量测试验装置研制,合同金额36万,委托单位:北京实验工厂有限责任公司
[2019,主持]音视频流存储开发套件,合同金额9.8万,委托单位:中船重工709所
[2019,主持]半球谐振陀螺组合电路可靠性设计及验证子系统,合同金额46万,委托单位:上海航天控制技术研究所
[2019,主持]透镜耦合软件,合同金额8万,委托单位:武汉格航帆科技有限公司
[2018,主持]微机械惯组综合测试设备,合同金额43.2万,委托单位:武汉华中航空测控技术有限公司
[2018,主持]伺服阀微孔零件检测系统,合同金额22万,委托单位:上海航天控制技术研究所
[2016,主持]大流量电液伺服阀计算机气动配磨测试台万,合同金额42,委托单位:九江精密测试技术研究所
[2015,主持]电液伺服阀计算机气动配磨测试台,合同金额42万,委托单位:上海航天控制技术研究所
[2015,主持]伺服机构间隙特性研究,合同金额8万,委托单位:上海新跃仪表厂
[2015,主持]机械间隙测量,合同金额20万,委托单位:上海交通大学