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Enhanced integrated energy system planning through unified model coupling multiple energy and carbon emission flows

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  • Dong, Wei
  • Chen, Chaofan
  • Fang, Xiaolun
  • Zhang, Fan
  • Yang, Qiang

Abstract

Integrated energy system plays a crucial role in achieving low carbon emissions while supplying multiple loads. As the energy Internet continues to evolve, integrated energy system, acting as a cell-level prosumer, exhibits intricate coupling characteristics between multiple energy flows and carbon flows. This paper presents a flexible planning method based on a unified energy-carbon coupled operation model. It can realize blank-paper planning under multiple energy-carbon flow constraints, that is, jointly optimize equipment configuration and capacity size from scratch. The proposed method combines clustering algorithms and Latin hypercube sampling to generate the operational scenarios for renewable resources and energy loads, enhancing the representativeness and reliability of planning solutions. The results demonstrate that the proposed method can effectively meet the requirements of electricity, cooling and heat loads under different seasonal scenarios. Furthermore, it elucidates the corresponding carbon emission distribution across distinct energy flows of the planned system. Compared with the conventional fixed equipment connected planning method, the more flexible blank-paper planning method can achieve annual economic cost savings of about 7.5 % and reduce annual carbon emissions by 6.7 %.

Suggested Citation

  • Dong, Wei & Chen, Chaofan & Fang, Xiaolun & Zhang, Fan & Yang, Qiang, 2024. "Enhanced integrated energy system planning through unified model coupling multiple energy and carbon emission flows," Energy, Elsevier, vol. 307(C).
    • Handle: RePEc:eee:energy:v:307:y:2024:i:c:s0360544224025738
    DOI: 10.1016/j.energy.2024.132799
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