Research on multi-energy power dispatching method based on carbon trading and green certificate trading

Ruobing Wu; Ming Yang; ZhengYu Yang

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Research on multi-energy power dispatching method based on carbon trading and green certificate trading

更新时间：2026-03-30

- Research on multi-energy power dispatching method based on carbon trading and green certificate trading
- Vol. 63, Issue 3, (2026)
- 作者机构：
  
  1. 云南电网有限责任公司信息中心
  2. 云南电网有限责任公司计量中心电力负荷控制技术中心
  3. 云南电网有限责任公司
- 作者简介：
- 基金信息：
- DOI：
  CLC：
- Published：2026
- 稿件说明：
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Ruobing Wu, Ming Yang, ZhengYu Yang. Research on multi-energy power dispatching method based on carbon trading and green certificate trading[J]. 2026, 63(3).
DOI：

Ruobing Wu, Ming Yang, ZhengYu Yang. Research on multi-energy power dispatching method based on carbon trading and green certificate trading[J]. 2026, 63(3). DOI：

摘要

双碳目标的提出

促进了电力调度向低碳转换

针对现有多能源电力调度方法难以兼顾经济性和低碳性的问题

提出一种考虑碳交易和绿证交易的多能源电力调度方法

通过高耗能企业消纳受阻风光的双层模型。上层模型以碳排放量交易成本、绿证交易成本和系统运行成本最低为目标构建

下层模型以高耗能企业利润增量最大为目标构建。通过改进的哈里斯鹰算法求解上层模型

将得到的数据传递给下层模型

在通过改进粒子群算法求解下层模型。通过算例分析验证所提多能源电力调度方法的可行性。结果表明

所提方法可以较好地兼顾经济性和低碳性

系统总成本335. 08 万元

系统碳排放1 358. 02 t。可为双碳目标实现提供一定的助力。

Abstract

The proposal of the carbon peaking and carbon neutrality target has promoted the transition of power dispatching to low-carbon. In response to the problem that existing multi energy power dispatching methods are difficult to balance economic and low-carbon aspects

a multi-energy power dispatching method is proposed that considers carbon trading and green certificate trading

using a dual layer model for high energy consuming enterprises to absorb obstructed wind and solar energy. The upper level model is constructed with the goal of minimizing carbon emission trading costs

green certificate trading costs

and system operating costs

while the lower level model is constructed with the goal of maximizing profit increment for high energy consuming enterprises. The upper level model is solved through the improved Harris Eagle algorithm

and transfers the obtained data to the lower level model

and solves the lower level model through the improved particle swarm algorithm. The feasibility of the proposed multi energy power dispatching method is verified through case analysis. The results show that the proposed method can effectively balance economic and low-carbon aspects

with a total system cost of 3. 3508 million yuan and a carbon emission of 1 358. 02 tons

which can provide certain assistance for achieving the dual carbon goal.

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