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Multi-time scale optimisation strategy for effective control of small-capacity controllable devices in integrated energy systems

Author

Listed:
  • Zhenyu Wang
  • Yanfang Wang
  • Chupeng Xiao
  • Wenbo Hu
  • Ruoxi Geng
  • Qingyi Liu
  • Botao Zhou
  • Meng Yu

Abstract

Integrated energy systems offer significant potential for synergistic utilisation of electricity, heat, and gas, leading to improved energy efficiency. However, effectively controlling numerous small-capacity devices within these systems presents operational challenges. This paper proposes a novel multi-time scale optimisation strategy that aggregates small-capacity controllable devices to address this issue. To enable aggregation, we utilise an approximate Minkowski sum method to unify devices with similar control characteristics. A two-stage scheduling strategy is developed, including day-ahead and intra-day stages. The day-ahead stage involves optimisation based on forecasted information, aiming for economic and low-carbon operation. In the intra-day stage, a rolling optimisation method utilising model predictive control is employed, incorporating a penalty term to achieve precise load response through power adjustment. Extensive simulation experiments validate the feasibility and reliability of the proposed strategy in effectively controlling small-capacity devices within integrated energy systems.

Suggested Citation

  • Zhenyu Wang & Yanfang Wang & Chupeng Xiao & Wenbo Hu & Ruoxi Geng & Qingyi Liu & Botao Zhou & Meng Yu, 2025. "Multi-time scale optimisation strategy for effective control of small-capacity controllable devices in integrated energy systems," Cyber-Physical Systems, Taylor & Francis Journals, vol. 11(1), pages 67-92, January.
    • Handle: RePEc:taf:tcybxx:v:11:y:2025:i:1:p:67-92
    DOI: 10.1080/23335777.2024.2328248
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