Optimal Economic Dispatching of Active Distribution Network Based on Carbon Emission Trading and Sequential Output Reconstruction of Renewable Energy

刘剑; 徐兵; 陈世龙; 胡思磊; 潘巍

doi:10.19725/j.cnki.1007-2322.2023.0377

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Optimal Economic Dispatching of Active Distribution Network Based on Carbon Emission Trading and Sequential Output Reconstruction of Renewable Energy

更新时间：2026-02-02

- Optimal Economic Dispatching of Active Distribution Network Based on Carbon Emission Trading and Sequential Output Reconstruction of Renewable Energy
- Vol. 43, Issue 1, Pages: 60-71(2026)
- 作者机构：
  
  中国能源建设集团天津电力设计院有限公司, 天津市河东区,300180
- 作者简介：
- 基金信息：
- DOI：10.19725/j.cnki.1007-2322.2023.0377
  CLC： 1
- Published：2026
- 稿件说明：
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刘剑, 徐兵, 陈世龙, et al. Optimal Economic Dispatching of Active Distribution Network Based on Carbon Emission Trading and Sequential Output Reconstruction of Renewable Energy[J]. 2026, 43(1): 60-71.
DOI：

刘剑, 徐兵, 陈世龙, et al. Optimal Economic Dispatching of Active Distribution Network Based on Carbon Emission Trading and Sequential Output Reconstruction of Renewable Energy[J]. 2026, 43(1): 60-71. DOI： 10.19725/j.cnki.1007-2322.2023.0377.

摘要

随着“双碳”战略的逐步实施，碳排放交易机制的引入已成为主动配电网实现低碳减排的核心手段。此外，风电、光电等间歇性能源大规模并网，使得主动配电网运行状态随机化。基于确定性场景的时序出力模拟手段已不适应当前复杂多变的电网运行状态。该文首先从风、光等可再生能源出力不确定性描述分析入手，运用随机微分方程模型对时序出力模型进行重构。然后，基于碳排放交易机制，构建三段式阶梯碳排放交易成本模型，并以调度过程中系统综合运行成本最小为目标，提出主动配电网最优经济调度模型。此外，针对调度模型概率约束难以求解的问题，提出离散步长变换和卷积序列运算方法，将机会约束规划转化为混合整数线性规划进行求解。最后，以2023年T地某实际配电网系统对所提模型进行验证，结果证实了该模型的可行性与有效性。

Abstract

With the gradual implementation of the “dual carbon” strategy

the introduction of carbon emission trading mechanism has become a central approach to realizing low carbon emission reduction. Moreover

the large-scale grid integration of intermittent energy sources results in a random operation state of the active distribution network. The simulation based on deterministic scenarios encounters difficulty in adapting to the complex power system operation mode. Starting with the description and analysis of uncertainty in renewable energy output

a stochastic differential equation model is employed to reconstruct its sequential output model. Based on the carbon emission trading mechanism

a three-stage ladder carbon emission trading cost model is then constructed

and the optimal economic dispatching model of active distribution network is proposed to minimize the operating cost. To address the challenging issue of probability constraint in scheduling model

the method of separated length transformation and convolution sequence operation is proposed to transform the chance constraint programming into easily solvable mixed integer linear programming. Finally

the proposed model is verified using active distribution system of T area

and the results demonstrate its feasibility and effectiveness.

关键词

Keywords

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