“与大师面对面”名师讲坛(2026-7-16):Dan Doru Micu,Architecting the Green Transition: Innovative Frameworks for Building Energy Efficiency and Flexibility

发布日期:2026-07-10 信息来源:电气工程学院


报告题目:Architecting the Green Transition: Innovative Frameworks for Building Energy Efficiency and Flexibility(构筑绿色转型:建筑能效与灵活性的创新框架)

时间:2026年7月16日 14:30

地点:电气楼706

主办单位:研究生工作部

承办单位:电气工程学院

报告人介绍:

Full Professor of Electrical Engineering at the Technical University of Cluj-Napoca (UTCN), where he also serves as Head of the Electrotechnics and Measurements Department and Director of the Energy Transition Research Center. He holds degrees in Electrical Engineering (1998) and Mathematics (2004), an MS (1999), a PhD (2004), and a Habilitation (2014) in Electrical Engineering. Between 2000–2002 he was a part-time PhD researcher at Vrije Universiteit Brussel, Belgium. Prof. Micu has led 8 international and 7 national research grants, participated in over 25 others, and coordinated more than 20 industrial R&D projects. He is author/coauthor of over 300 scientific papers, 11 books, 5 book chapters, and editor of 3 special issues. His research focuses on: energy analytics numerical tools; energy efficiency in buildings & industry; numerical methods; electromagnetic compatibility; electromagnetic field analysis. He has lectured at more than 50 universities worldwide, is a Fulbright Senior Fellow (2017, 2022) at University of Florida, USA, and Part-time Professor at Beijing Jiaotong University, China (2019-2023), Part-time Professor at Shenyang University of Technology, China (2025-2026). He is a reviewer for over 20 journals and member of 6 international steering committees. His work has been recognized with numerous awards, including distinctions from Association of Energy Engineers – USA and the European Commission. He is also associated member of the prestigious Technical Sciences Academy of Romania.

Dan Doru Micu为罗马尼亚克卢日-纳波卡技术大学(UTCN)电气工程教授,同时担任电工技术与测量系主任及能源转型研究中心主任。他于1998年获电气工程学士学位,2004年获数学学士学位,1999年获硕士学位,2004年获博士学位,2014年获电气工程特许任教资格。2000年至2002年间,他在比利时布鲁塞尔自由大学担任兼职博士研究员。Micu教授主持了8项国际科研项目和7项国内科研项目,参与了25项以上其他项目,并协调了20余项工业研发项目。他是300余篇科学论文、11部著作、5个书籍章节的作者或合著者,并担任3期特刊的编辑。他的研究重点包括:能源分析数值工具;建筑与工业能效;数值方法;电磁兼容性;电磁场分析。他曾在全球50余所大学讲学,是美国佛罗里达大学富布莱特高级访问学者(2017年、2022年),2019年至2023年任中国北京交通大学兼职教授,2025年至2026年任中国沈阳工业大学兼职教授。他是20余种期刊的审稿人,并担任6个国际指导委员会的成员。他的研究成果获得了众多奖项,包括美国能源工程师协会和欧盟委员会的表彰。他还是罗马尼亚技术科学院的通讯院士。

报告摘要:

The plenary lecture will highlight selected research outcomes from European projects implemented by the Energy Transition Research Center (EnTReC) at the Technical University of Cluj-Napoca (https://entrec.utcluj.ro/). Since its establishment in 2014, EnTReC has been committed to advancing research that supports the transition to climate neutrality across the energy sector, industry, buildings, and communities, through the implementation of over 30 large-scale international projects.

A key achievement was the development of a decentralized digital energy services concept based on Demand Response (DR) for buildings with aggregated energy consumption, along with its implementation at the Romanian pilot site involving four buildings of the Technical University of Cluj-Napoca (TUCN). This initiative was part of the Demand Response in Blocks of Buildings (DR-BOB) project. The outcome enabled real-time optimization of local energy production, consumption, and storage, while significantly reducing electricity demand during peak load periods.

Another major result emerged from the RE-COGNITION project (Renewable Cogeneration and Storage Technologies Integration for Energy Autonomous Buildings), which focused on the optimal integration of multiple renewable energy source (RES) technologies and associated subsystems in a building—specifically, the university’s swimming complex. Leveraging artificial intelligence (AI), the project implemented automated cognitive energy management actions using the installed RES technologies and the pre-existing building energy management system (developed in DR-BOB). The effectiveness of the RE-COGNITION solution was validated through various operational scenarios, demonstrating tangible economic benefits under real-world conditions. This line of research is now being extended through four ongoing international projects, each centered on demonstrative pilot sites for testing innovative technologies: EVELIXIA (Smart Grid-Efficient Interactive Buildings), SunHorizon (Sun-Coupled Innovative Heat Pumps), RENplusHOMES (Renewable Energy-Based Positive Homes), and DOITSMARTer, which focuses on developing advanced mathematical algorithms based on AI techniques. The pilot sites developed within these projects—such as the Building Energy Management System, Building Integrated Photovoltaics, Vehicle-to-Grid, Demand Response Management System, Local Energy Manager, Flexible Energy Storage System—are fully available to TUCN’s research teams and are also accessible as living labs for researchers and students alike.

Additional scientific achievements include the development of advanced Monitoring and Targeting (M&T) and Measurement and Verification (M&V) tools for energy, which have played a key role in providing technical assistance to a large number of SMEs. These developments were realized within the framework of the projects SMEmPower Efficiency—a holistic initiative aimed at strengthening SMEs' capacity to enhance their energy efficiency—and its predecessor project, Meeting the Energy Professional Skills (MENs). This line of research is now being further advanced through the ongoing project EnTRAINER – Energy Transition Audits through Decarbonization.

本次全体会议报告将重点介绍克卢日-纳波卡技术大学能源转型研究中心(EnTReC,https://entrec.utcluj.ro/)所执行的欧洲项目中的部分研究成果。EnTReC自2014年成立以来,一直致力于通过实施30余项大型国际项目,推动能源领域、工业、建筑及社区向气候中和转型的科研工作。

其中一项重要成就是,基于需求响应(DR)理念,为具有聚合能耗的建筑开发了去中心化数字能源服务概念,并在罗马尼亚试点站点——涉及克卢日-纳波卡技术大学(TUCN)四栋建筑——进行了实施。该举措是“建筑群需求响应”(DR-BOB)项目的组成部分。其成果实现了本地能源生产、消费和储存的实时优化,同时在高峰负荷时段显著降低了电力需求。

另一项重大成果来自RE-COGNITION项目(“可再生能源热电联产与储能技术集成用于能源自给建筑”),该项目聚焦于在单一建筑——即该大学的游泳综合馆——中实现多种可再生能源技术及相关子系统的最优集成。借助人工智能技术,项目利用已安装的可再生能源技术和既有的建筑能源管理系统(在DR-BOB项目中开发)实施了自动化认知能源管理操作。RE-COGNITION解决方案的有效性已通过多种运行场景得到验证,在实际条件下展现了切实的经济效益。目前,这一研究方向正通过四个正在进行的国际项目进一步拓展,每个项目均以示范性试点站点为核心,用于测试创新技术,包括:EVELIXIA(智能电网—高效交互建筑)、SunHorizon(太阳耦合创新热泵)、RENplusHOMES(基于可再生能源的正能住宅),以及DOITSMARTer(侧重于基于人工智能技术开发先进数学算法)。这些项目所开发的试点设施——如建筑能源管理系统、建筑集成光伏、车辆到电网、需求响应管理系统、本地能源管理器、柔性储能系统等——均已全面对TUCN研究团队开放,同时也作为活态实验室供研究人员和学生使用。

其他科学成就包括开发了先进的能源监测与目标设定(M&T)及测量与验证(M&V)工具,这些工具在为大量中小企业提供技术支持方面发挥了关键作用。上述成果是在SMEmPower Efficiency项目框架内实现的——该综合性项目旨在增强中小企业提升能效的能力——及其前身项目“满足能源专业人才技能”(MENs)。目前,这一研究方向正通过正在进行的EnTRAINER项目(“通过脱碳实现能源转型审计”)进一步推进。