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Physical Deliverability-Oriented Carbon Cost-Constrained Low-Carbon Dispatch: A User-Centric Dispatch Framework with Demand Response

Author

Listed:
  • Ke Liu

    (State Grid Shandong Electric Power Research Institute, Jinan 250003, China)

  • Wenhao Song

    (State Grid Shandong Electric Power Research Institute, Jinan 250003, China)

  • Chen Yang

    (Sichuan Energy Internet Research Institute, Tsinghua University, Chengdu 610041, China)

  • Chunsheng Zhou

    (State Grid Shandong Electric Power Research Institute, Jinan 250003, China)

  • Haoran Feng

    (Sichuan Energy Internet Research Institute, Tsinghua University, Chengdu 610041, China)

  • Zhonghua Zhao

    (State Grid Shandong Electric Power Research Institute, Jinan 250003, China)

  • Chunxiao Tian

    (State Grid Shandong Electric Power Research Institute, Jinan 250003, China)

  • Qiuyu Chen

    (Sichuan Energy Internet Research Institute, Tsinghua University, Chengdu 610041, China)

Abstract

Sustainable power-system operation requires carbon-reduction strategies that are emission-effective, physically deliverable, economically feasible, and compatible with user-side decarbonization claims. As Scope 2 carbon accounting increasingly emphasizes temporal, spatial, and physical consistency, dispatch models need to link user-level carbon claims with network-constrained power delivery. This paper proposes a User-Centric Carbon Cost-Constrained Low-Carbon Dispatch (CCC-LCD) framework that integrates carbon emission flow (CEF), nodal carbon intensity (NCI), network-constrained optimal dispatch, and endogenous demand response. A PTDF-based DC-OPF model represents active-power deliverability, while dual virtual flow variables determine carbon-flow directions endogenously. The model minimizes the target user’s physically traced Scope 2 emissions under a cost-tolerance budget and flexible-load constraints. Case studies on a modified IEEE 14-bus system show that nodal decarbonization is topology-dependent: high-load and high-NCI nodes obtain larger reductions from source-side generation substitution, whereas renewable-adjacent nodes exhibit limited marginal gains. The CEF-DR strategy outperforms single-mechanism cases, indicating the value of coordinating physical carbon-flow constraints with flexible demand. From a sustainability perspective, the proposed framework supports verifiable low-carbon electricity consumption, improves the economic feasibility of user-side decarbonization, and provides a practical dispatch tool for sustainable energy transition and corporate Scope 2 emission reduction.

Suggested Citation

  • Ke Liu & Wenhao Song & Chen Yang & Chunsheng Zhou & Haoran Feng & Zhonghua Zhao & Chunxiao Tian & Qiuyu Chen, 2026. "Physical Deliverability-Oriented Carbon Cost-Constrained Low-Carbon Dispatch: A User-Centric Dispatch Framework with Demand Response," Sustainability, MDPI, vol. 18(10), pages 1-20, May.
  • Handle: RePEc:gam:jsusta:v:18:y:2026:i:10:p:5019-:d:1944259
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