XU Yuling;WANG Lei;JIANG Weijian;ZHOU Junping;

• 1:College of Electrical Engineering
• 2: Shanghai University of Electric Power
• 3:State Grid Jiaxing Power Supply Company

Abstract：

In the context of the “dual carbon” strategy, this paper addresses the optimization of wind-solar-energy storage capacity configuration in microgrids by proposing a dual-layer optimization model. With the overarching objective of maximizing net profit throughout the microgrid's planned lifecycle and considerations related to constraints on carbon emission quotas and transformer capacity on the source side, the model aims to reduce electricity purchasing of main grid and lower the overall carbon footprint of the system. On the load side, demand response is introduced, and users are guided to modify their electricity consumption patterns under time-of-use pricing, leading to an optimized load curve and improved economic efficiency for the microgrid. The dual-layer optimization model is solved using LINGO, a nonlinear programming tool. Through case studies, the planning outcomes considering different proportions of transferable and unloadable loads, as well as varying constraints on carbon emission quotas and transformer capacities. The results demonstrate the effectiveness of the proposed model.

Key Words： microgrid;dual-layer optimization;demand response;transformer capacity;carbon emission quota

Abstract:

Keywords:

Foundation: 国家自然科学基金资助项目（61873159）;; 上海绿色能源并网工程技术研究中心资助项目（13DZ2251900）

Authors: XU Yuling;WANG Lei;JIANG Weijian;ZHOU Junping;

DOI: 10.19585/j.zjdl.202404004

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