含频率偏移约束的孤岛微网源-荷-储协整优化模型

黄婧杰; 罗雄; 谢宇峥; 周任军

doi:10.13334/j.0258-8013.pcsee.241632

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含频率偏移约束的孤岛微网源-荷-储协整优化模型

电力系统 | 更新时间：2026-02-06

- 含频率偏移约束的孤岛微网源-荷-储协整优化模型
- Source-load-storage Cointegration Optimization Model for Islanded Microgrids With Frequency Deviation Constraints
- 中国电机工程学报 2026年46卷第2期页码：559-568
- 作者机构：
  
  1. 电网防灾减灾全国重点实验室(长沙理工大学),湖南省,长沙市,410114
  2. 国网湖南省电力有限公司经济技术研究院,湖南省,长沙市,410004
- 作者简介：
- 基金信息：
- DOI：10.13334/j.0258-8013.pcsee.241632
  中图分类号：
- 纸质出版：2026
- 稿件说明：
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黄婧杰, 罗雄, 谢宇峥, 等. 含频率偏移约束的孤岛微网源-荷-储协整优化模型[J]. 中国电机工程学报, 2026,46(2):559-568.

黄婧杰, 罗雄, 谢宇峥, et al. Source-load-storage Cointegration Optimization Model for Islanded Microgrids With Frequency Deviation Constraints[J]. 2026, 46(2): 559-568.
黄婧杰, 罗雄, 谢宇峥, 等. 含频率偏移约束的孤岛微网源-荷-储协整优化模型[J]. 中国电机工程学报, 2026,46(2):559-568. DOI： 10.13334/j.0258-8013.pcsee.241632.

黄婧杰, 罗雄, 谢宇峥, et al. Source-load-storage Cointegration Optimization Model for Islanded Microgrids With Frequency Deviation Constraints[J]. 2026, 46(2): 559-568. DOI： 10.13334/j.0258-8013.pcsee.241632.

摘要

微电网在孤岛运行时，由于负荷和新能源均有实时波动，因此各时刻均可能存在功率不平衡量。功率不平衡量会造成频率偏移，是系统一次调频函数。因此，将传统有功功率实时平衡等式约束扩展为含一次调频函数的实时平衡等式约束，以运行成本最小和新能源消纳量最大为目标，建立含频率偏移约束的孤岛微网源-荷-储协调优化模型。研究发现，传统有功功率实时平衡在其时间序列上可推论为残差序列为0的特殊协整关系。因此，将扩展后的实时平衡等式约束视为潜在协整关系，其功率不平衡量可视为不为0的残差序列，设置残差序列平稳性约束，则源-荷-储协整关系成立，因而建立含频率偏移约束的孤岛微网源-荷-储协整优化模型。仿真结果表明：含频率偏移的协调或协整优化模型均增大了可行解范围，均具有更高的经济性；因源-荷-储协整关系的约束，协整模型比协调模型更保证了孤岛微网运行时的频率安全性。两模型均反映了功率波动导致频率偏移，进而展现微网功率新平衡这一客观状态；均将频率偏移作为可利用的调频资源，扩展了模型可行解；协整模型更适于新型电力系统运行和优化建模。

Abstract

When microgrids are in islanded operation

there may be power imbalance at any time due to real-time fluctuations of both loads and renewable energy sources. The amount of power imbalance is a primary frequency regulation function of the frequency deviation and the system frequency regulation coefficient. Therefore

the traditional real-time active power balance equation constraint is extended to a real-time balancing equation constraint containing the primary frequency regulation function

and a coordinated optimization model of islanded microgrids with frequency deviation constraints is established with the objective of minimizing the operation cost and maximizing the renewable energy accommodation. It is found that the traditional real-time active power balance can be inferred as a special cointegration relationship with zero residuals in its time series; therefore

the extended real-time balance equation constraint is regarded as a potential cointegration relationship

and the power imbalance can be regarded as a non-zero residual series. Then the source-load-storage cointegration relationship is established by setting a smoothness constraint on the residual series

and a source-load-storage cointegration optimization model is established for the islanded microgrids with frequency deviation constraints. The simulation results show that both the coordinated and cointegration optimization models with frequency deviation expand the feasible solution range

and have higher economics; the cointegration model enhances frequency security during the operation of isolated microgrids compared with the coordinated model by the constraints of the source-load-storage cointegration relationship. Both models demonstrate that the power fluctuation results in frequency deviation

and reveal a new power balance in microgrids. Both models take the frequency deviation as the available frequency regulation resource

which expands their feasible solutions. The cointegration model is more suitable for operation and optimization modeling of the new-type power system.

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