The 2023 IEEE 14th International Symposium on Power Electronics for Distributed Generation Systems (PEDG 2023) will be held during June 9-12, 2023 in Shanghai, China, which is the 3rd time that China hosts this event.
This conference, sponsored by IEEE Power Electronics Society (PELS) and organized by the PELS Technical Committee on Sustainable Energy Systems, Shanghai Jiao Tong University, and Shanghai Power Supply Society, will provide an international visible platform for presenting innovative and cut-edge results in the area of power electronics and distributed generation systems.
PEDG 2023 will feature plenary speeches, tutorials, and regular technical sessions on theory, analysis, design, deployment and impact of power electronics for distributed generation, energy storage, and sustainable sources. Particular attention will be given to emerging approaches of configurations, controls, applications, and tests of renewable energy systems to achieve carbon peaking and carbon neutrality goals.
Prospective participants are invited to submit an extended abstract of their original work. All of the conference papers will be EI-indexed and included in IEEE Xplore. Selected papers will be invited for possible publications in special issues/special sections of IEEE PELS journals including JESTPE and TPEL. Moreover, student travel grants and best papers awards will be provided.
The topics included but not limited to below:
Track 1: Power Electronics for Sustainable Sources
- Power converters/controls for wind, solar, wave, and hydrogen
- High-efficiency and high reliable power conversion for sustainable sources using new topologies, WBG devices and magnetic materials
- Solid State Transformers, and medium/high voltage DC distribution/transmission
- Monitoring, protection and standards of DG systems
Track 2: Energy Storage Systems
- Power electronics for battery, supercapacitor, and hybrid energy storage systems
- Power electronics for charging and operation of electric, hybrid electric, and plug‐in hybrid electric vehicles
- Energy management, planning and sizing of energy storage, and power converter systems for various cases including peak shaving, intermittency mitigation etc.
Track 3: Distributed Generation Interacting with Power Transmission and Distribution Systems
- Microgrids and nanogrids – grid interconnected and islanded operation
- Distributed generation power electronics and electric power quality – voltage, frequency, harmonics impacts and mitigation
- Power electronics as power stations: grid forming, demand response, high penetration of distributed generation in the grid, and renewables generation forecasting
Track 4: Emerging Topics on Renewables
- Power semiconductors and its monitoring/characterizations for distributed generation power electronics
- Cybersecurity issues, artificial intelligence and big data used in renewable energy systems
- Energy policy and public policy issues relating to power electronics based distributed and sustainable generation systems
- Real-Time simulation, Hardware-In-the-Loop validation, Mission profile emulation for renewable energy components/systems
