Track 13

Smart Integration, Equipment Modeling, and Optimal Planning for High-Penetration Renewable Power Systems

高比例新能源电力系统的智能集成、装备建模与优化规划

1. Organizers:

Chair: Song Wang (王松), Northwest A&F University (西北农林科技大学)

Co-Chair: Hao Qiu (邱浩), Guilin University of Electronic Technology (桂林电子科技大学)

2. Abstract:

English: The global transition toward high-penetration renewable energy presents unprecedented challenges to the stability, reliability, and economic viability of modern power grids, demanding advanced methodologies that seamlessly span from underlying physical components to macro-level system architectures. To address these complexities, this track provides an international platform for exchanging cutting-edge research aimed at accelerating next-generation, high-resilience power systems. We welcome submissions focusing on the safe integration, intelligent operation, and optimal planning of sustainable energy, with key topics emphasizing advanced electromagnetic modeling of magnetic materials, intelligent diagnostics for photovoltaic plants, flexible grid integration such as VSC-HVDC for wind power, and techno-economic investment planning of integrated energy microgrids. By bridging the gap between micro-level material science and macro-level system optimization, this session aims to foster innovative solutions for the future energy landscape.

中文: 全球向高比例可再生能源的转型对现代电网的稳定性、可靠性和经济性提出了前所未有的挑战,亟需涵盖从底层物理组件到宏观系统架构的先进方法。为应对这些复杂性,本论坛提供了一个国际交流平台,旨在加速下一代高韧性电力系统的发展。我们欢迎聚焦于可持续能源的安全集成、智能运行和优化规划的相关投稿,重点讨论磁性材料的先进电磁建模、光伏电站智能诊断、风电柔直并网等灵活并网技术,以及综合能源微电网的技术经济投资规划。通过架起微观材料科学与宏观系统优化之间的桥梁,本分论坛旨在为未来能源格局培育创新解决方案。

3. Topics:

  • Electromagnetic modeling of magnetic materials / 磁性材料电磁建模
  • VSC-HVDC grid integration for wind power / 风电柔直并网
  • Intelligent diagnostics for photovoltaic plants / 光伏故障诊断
  • Techno-economic investment planning of integrated energy microgrids / 综合能源微电网投资规划