A Multi-scale Optimization Framework for Integrated Clean Power and Thermal Management
Lecture Series on Enabling Technologies for the Clean Energy Transition
Faced with climate change, the Clean Energy Transition (CET) is not just an option, it's an imperative.
The CET relies on technologies such as renewables, energy efficiency, and electrification, with emerging contributions from hydrogen and carbon capture. These areas have seen significant advances due to matured energy processing systems, including power electronics, energy storage and power-to-X transformation technologies, among others, and digital systems comprising IoT, smart-metering, communications, computational intelligence and cloud computing, among others, complemented by progress in materials and manufacturing.
In this Lecture Series, we will explore the pioneering technologies that will transform our carbon-dependent society to a carbon-neutral one. We will advance in understanding energy efficiency, renewable energy, electrification, digitalization, and beyond. Together, we will navigate the challenging landscape of the future of energy - digitalized, decentralized, and decarbonized.
Join us on this journey towards energy transition, catalyzing a greener, cleaner, and more sustainable future.
Date and Time
Location
Hosts
Registration
- Date: 05 Mar 2024
- Time: 03:00 PM to 05:00 PM
- All times are (UTC+01:00) Brussels
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- 7, Ënnert den Héichiewen
- Université du Luxembourg (Belval Campus)
- Esch-Belval, Luxembourg
- Luxembourg L-4362
- Click here for Map
- Contact Event Host
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Luxembourg Institute of Science and Technology (LIST)
41 rue du Brill; L-4422 Belvaux, Luxembourg
This lecture will be conducted as a hybrid event, with both in-person and online participation.
Venue: University of Luxembourg. Belval Campus. Ellipse room at the Uni.lu Learning Center
You will receive a link to register in the LIST's online room after registering on the IEEE site. Thank you for your patience.
- Co-sponsored by Luxembourg National Research Fund (FNR - RESCOM programme - ENERTRANS project) and locally organized by the Luxembourg Institute of Science and Technology (LIST)
- Starts 20 February 2024 08:00 AM
- Ends 04 March 2024 08:00 PM
- All times are (UTC+01:00) Brussels
- No Admission Charge
Speakers
Prof. Jing Sun of University of Michigan, US
A Multi-scale Optimization Framework for Integrated Clean Power and Thermal Management
LECTURE ABSTRACT
Clean and sustainable energy solutions render integrated systems where heterogeneous physical entities are combined to form functional platforms. New and “invisible” feedback loops and couplings are introduced with increased connectivity, leading to emerging dynamics and making the integrated systems more control-intensive. The multi-physics, multi-time scale, and distributed-actuation natures of those integrated systems present new challenges as well as opportunities for control and optimization. Understanding their operating environments, achieving sustained high performance, and incorporating rich but incomplete data also motivate the development of novel design tools and frameworks. In this talk, I'll use the thermal and power management of connected and automated vehicles (CAV) to highlight the Clean Energy Transition challenges.
Biography:
Personal Statement:
Through theoretical development, technology innovation, and knowledge dissemination, my goal is to improve the efficiency and sustainability of power and energy systems and reduce the environmental and societal impact of ground and marine vehicles. My research work contributes to the energy transition through the intersection of dynamics and control with applications to electrical transportation and marine systems. Therefore, I can share my experience and vision on energy system optimization in the Lecture Series on Enabling Technologies for Clean Energy Transition by giving a lecture on “Multi-scale Optimization for Integrated Clean Power and Thermal Management”, which I hope arises attention of all the value chain stakeholders.
Personal details:
I received my Ph. D degree from the University of Southern California, I am currently the Michael G. Parsons Collegiate Professor at the University of Michigan and have appointments in three different departments. I am a Fellow of the National Academy of Inventors, IEEE, IFAC, and the Society of Naval Architects and Marine Engineers. I also received the IEEE Control System Technology Award in 2003 and the IEEE Control Systems Society Distinguished Lecturer Award in 2019.
Key outputs, contributions, and achievements:
I hold 44 US patents and have published over 300 peer-reviewed journal and conference papers. I have also mentored over 25 Ph.D. students. I co-authored a textbook on Robust Adaptive Control which received over 7500 citations. I also served on the Board of Governors for the IEEE Control Systems Society as Vice President for Financial Activities (2019-2020) and Vice President for Technical Activities (2021-2022).
Email:
Address:2600 Draper Drive, 219 NAME Bldg, , Michigan, United States, 10587
Agenda
CONTENTS
- Introduction: Transportation Decarbonization
- Integrated Power-Thermal Systems for CAV and Emergent Dynamics
- Multi-physics and Multi-fidelity Modeling of CAV for Energy Efficiency
- Multi-horizon Model Predictive Control for Power-Thermal Management
- Mixed Model-based and Data-Driven Multi-range Load Prediction
Join us both in-person at Luxembourg and online on March 5th, 2024 from 15.00pm to 17.00pm (CET)