Simultaneous optimization of renewable energy and energy storage capacity with the hierarchical control

Zhaodi Shi; Weisheng Wang; Yuehui Huang; Pai Li; Ling Dong

doi:10.17775/CSEEJPES.2019.01470

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Simultaneous optimization of renewable energy and energy storage capacity with the hierarchical control

更新时间：2025-12-18

- Simultaneous optimization of renewable energy and energy storage capacity with the hierarchical control
- CSEE Journal of Power and Energy Systems Vol. 8, Issue 1, Pages: 95-104(2022)
- 作者机构：
  
  1. State Key Laboratory of Operation and Control of Renewable Energy and Storage Systems, China Electric Power Research Institute,Beijing,China
  2. State Grid Qinghai Electric Power Company,Xining,China
- 作者简介：
- 基金信息：
- DOI：10.17775/CSEEJPES.2019.01470
  CLC：
- Published：2022
- 稿件说明：
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Zhaodi Shi, Weisheng Wang, Yuehui Huang, et al. Simultaneous optimization of renewable energy and energy storage capacity with the hierarchical control[J]. CSEE Journal of Power and Energy Systems, 2022, 8(1): 95-104.
DOI：

Zhaodi Shi, Weisheng Wang, Yuehui Huang, et al. Simultaneous optimization of renewable energy and energy storage capacity with the hierarchical control[J]. CSEE Journal of Power and Energy Systems, 2022, 8(1): 95-104. DOI： 10.17775/CSEEJPES.2019.01470.

摘要

Abstract

To fully consider the complementary role of different energy sources and reduce the curtailment of renewable energy (RE) in high RE penetration systems

a hierarchical optimization algorithm is proposed to simultaneously optimize the capacity of RE generation and energy storage systems (ESS). Time sequence simulation (TSS) technology is adopted to fully consider the regional RE resource characteristics and make the model more reliable. An optimization model for evaluating ESS capacity is established at a lower level. To overcome the high dimensional complexity of time sequence data

this paper re-formulates this sub-model as a consensus problem

which can be solved by a distributed approach to minimize the system's total investment costs. At the upper level

the model for assessing the proportion of wind and solar capacity is developed by maximizing the RE generation. The golden section Fibonacci tree optimization (GSFTO) algorithm is utilized to improve the efficiency and solution accuracy. The results show that the algorithm and model are feasible and applicable for the identified purposes

which can provide a useful guidance for the development of power generation and the energy storage capacity in high RE penetration systems.

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