第二届储能及能源转换国际学术会议（ESEC 2026）圆满落幕

  The 2026 2nd International Conference on Energy Storage and Energy Conversion (ESEC 2026) Concludes Successfully

2026年6月12日，第二届储能及能源转换国际学术会议（ESEC 2026）以线上形式成功召开。本次会议由内蒙古工业大学主办，内蒙古工业大学电力学院承办，智慧储能研究院、大规模储能教育部工程研究中心、华南理工大学、厦门大学、四川城市职业学院、绵阳师范学院等单位大力支持。来自国内外高校、科研院所及企业的60余位专家学者和研究生齐聚云端，围绕高效储能材料、先进电池技术、可再生能源转换、智能能源管理系统等热点议题展开了深入交流。

On June 12, 2026, the 2026 2nd International Conference on Energy Storage and Energy Conversion (ESEC 2026) was successfully held online. The conference was hosted by Inner Mongolia University of Technology and organized by the School of Electric Power, Inner Mongolia University of Technology, with strong support from the Smart Energy Storage Research Institute, the Engineering Research Center of Large-Scale Energy Storage (Ministry of Education), South China University of Technology, Xiamen University, Sichuan Urban Vocational College, and Mianyang Teachers' College. More than 60 experts, scholars, and graduate students from universities, research institutions, and enterprises gathered online to engage in in-depth exchanges on hot topics such as high-efficiency energy storage materials, advanced battery technologies, renewable energy conversion, and intelligent energy management systems.

开幕致辞 Opening Remarks

会议于当日上午正式开幕。内蒙古工业大学教授、电力学院学术院长、智慧储能研究院常务副院长王顺利担任主持人并致开场辞。王顺利教授对各位参会代表表示热烈欢迎，并简要介绍了本次会议的背景与意义。他指出，在全球能源转型和“双碳”目标驱动下，储能与能源转换技术已成为构建新型电力系统、提升可再生能源利用水平的关键支撑。本次会议旨在搭建高水平的学术与产业交流平台，促进技术突破与成果共享。

The conference officially opened on the morning of that day. Professor Wang Shunli, Professor of Inner Mongolia University of Technology, Academic Dean of the School of Electric Power, and Executive Deputy Director of the Smart Energy Storage Research Institute, served as the host and delivered the opening address. Professor Wang Shunli extended a warm welcome to all participants and briefly introduced the background and significance of the conference. He pointed out that, driven by the global energy transition and the "dual carbon" goals, energy storage and energy conversion technologies have become key pillars for building new power systems and improving the utilization of renewable energy. This conference aims to build a high-level platform for academic and industrial exchange, promoting technological breakthroughs and the sharing of achievements.

主旨报告精彩纷呈 Excellent Keynote Reports

会议共安排四场高水平主旨报告，报告人分别来自内蒙古工业大学、北京理工大学、广西大学和山东大学，内容涵盖储能电站、锂离子电池数智化管控、车用动力电池混合热管理优化与储能电池安全管控等前沿方向。

The conference featured four high-quality keynote reports, delivered by speakers from Inner Mongolia University of Technology, Beijing Institute of Technology, Guangxi University, and Shandong University. The topics covered cutting-edge areas such as energy storage power stations, digital and intelligent control technologies for lithium-ion batteries, optimization of hybrid thermal management for automotive power batteries, and safety control of energy storage batteries.

第一位报告人：王顺利教授（内蒙古工业大学）

First Speaker: Prof. Shunli Wang (Inner Mongolia University of Technology)

王顺利教授作了题为《储能及能源转换中的复合建模与态势感知技术及其在储能电站中的应用》的报告。他系统阐述了储能系统在多场景下的复合建模方法，以及基于态势感知的智能管控技术，展示了相关技术在储能电站安全高效运行中的实际应用效果。

Professor Shunli Wang presented a report titled "Composite Modeling and Situational Awareness Technologies for Energy Storage and Energy Conversion and Their Application in Energy Storage Power Stations." He systematically elaborated on composite modeling methods for energy storage systems in multiple scenarios, as well as intelligent control technologies based on situational awareness, demonstrating the practical application effects of related technologies in the safe and efficient operation of energy storage power stations.

第二位报告人：魏中宝教授（北京理工大学）

Second Speaker: Prof. Zhongbao Wei (Beijing Institute of Technology)

魏中宝教授是北京理工大学机械与车辆学院教授、科学技术研究院副院长，入选国家级人才、IET会士。他以《锂离子电池数智化管控技术》为题，介绍了基于人工智能的电池故障诊断与寿命评估新方法，实现了析锂状态的精细化诊断和高度不确定工况下健康状态的精确评估，并对内部传感等未来电池管理前沿方向进行了展望。

Professor Zhongbao Wei is a professor at the School of Mechanical Engineering, Beijing Institute of Technology, and Deputy Director of the Office of Science and Technology Research. He is a recipient of the National-Level Talent Program and an IET Fellow. His report, titled "Digital and Intelligent Control Technologies for Lithium-Ion Batteries," introduced new AI-based methods for battery fault diagnosis and life assessment, achieving refined diagnosis of lithium plating and accurate state-of-health estimation under highly uncertain operating conditions. He also provided an outlook on future frontiers of battery management, including internal sensing.

第三位报告人：欧阳天成教授（广西大学）

Third Speaker: Prof. Tiancheng Ouyang (Guangxi University)

欧阳天成教授，广西杰出青年基金获得者、八桂青年拔尖人才，长期从事新能源汽车能量管理与智慧能源管控研究。他带来题为《极端条件下车用动力电池混合热管理系统优化与控制策略研究》的报告，揭示了液冷与相变材料结合的混合热管理机制，为高倍率及极端工况下的电池热安全提供了优化方案。

Professor Tiancheng Ouyang is a recipient of the Guangxi Natural Science Fund for Distinguished Young Scholars and a Guangxi Bagui Young Top-notch Talent. He has long been engaged in research on energy management and smart energy control for new energy vehicles. His report, titled "Research on Optimization and Control Strategies for Hybrid Thermal Management Systems of Automotive Power Batteries under Extreme Conditions," revealed the hybrid thermal management mechanism combining liquid cooling and phase change materials, providing optimization solutions for battery thermal safety under high-rate and extreme operating conditions.

第四位报告人：商云龙教授（山东大学）

Fourth Speaker: Prof. Yunlong Shang (Shandong University)

商云龙教授，国家优青、山东省杰青获得者，长期从事储能电池安全控制研究。他以《力学视角下的储能电池安全管控》为题，从力学角度剖析了电池在机械滥用下的失效机理，提出了多层级安全管控策略，为提升储能电池的本征安全性与系统可靠性提供了新思路。

Professor Yunlong Shang is a recipient of the National Excellent Young Scientist and the Shandong Provincial Distinguished Young Scientist. He has long been engaged in research on safety control of energy storage batteries. His report, titled "Safety Control of Energy Storage Batteries from a Mechanical Perspective," analyzed the failure mechanisms of batteries under mechanical abuse from a mechanical viewpoint, proposed multi-level safety control strategies, and offered new ideas for improving the intrinsic safety and system reliability of energy storage batteries.

会议期间还安排了线上合影及海报展示环节，展示了多位青年学者的最新研究成果。

During the conference, an online group photo and poster session were also arranged, showcasing the latest research achievements of many young scholars.

闭幕与致谢 Closing and Acknowledgments

本次会议的成功举办，不仅展示了储能与能源转换领域的最新研究进展，也为学术界与产业界搭建了高效的沟通桥梁。ESEC 2026将继续推动储能与能源转换技术的学术交流，助力全球能源结构优化与可持续发展。期待明年与各位相聚！

The successful holding of this conference not only showcased the latest research progress in the field of energy storage and energy conversion but also built an efficient communication bridge between academia and industry. ESEC 2026 will continue to promote academic exchanges on energy storage and energy conversion technologies, contributing to the optimization of global energy structures and sustainable development. We look forward to meeting you all next year!