Increasing flexibility in vulnerable power grids using electrochemical storage

可靠性工程 电力系统 备份 灵活性(工程) 储能 最大功率转移定理 可再生能源 计算机科学 网格 功率(物理) 汽车工程 工程类 电气工程 物理 几何学 统计 数据库 量子力学 数学
作者
Gustavo Adolfo Gómez-Ramírez,Luis García-Santander,Markel Zubiaga Lazkano,Carlos Meza
出处
期刊:Heliyon [Elsevier BV]
卷期号:10 (16): e35710-e35710 被引量:4
标识
DOI:10.1016/j.heliyon.2024.e35710
摘要

Developing a reliable power grid and investing in non-conventional renewable energy resources pose problems for low- and medium-income countries. Frequently, maintaining a robust power grid infrastructure can present challenges in terms of reliability, resilience, and flexibility. This article presents a methodology for improving power flexibility in susceptible power systems through the utilization of Battery Energy Storage Systems (BESS). The methodology entails the examination of power stability, operating conditions, and security criteria in order to identify suitable locations for storage allocation. A study was conducted utilizing the Electrical Transient and Analysis Program (ETAP®) software to simulate the Central American power transmission grid. The results of the study indicate that including storage systems to offer virtual inertia and backup during emergency situations is a recommended strategy for mitigating potential challenges. The study suggests that applying specific criteria for allocation and sizing at critical points in sensitive systems can enhance power transfer flexibility, eliminating potential constraints. The Central American electrical Power System, which faces power transfer limitations, is well-suited for BESS. In severe contingencies, such as when the system frequency drops to 58.75 Hz and power transfer between Mexico and Central America exceeds 300 MW with voltage levels below 0.97 pu, BESS can help mitigate these issues. The solution involves deploying BESS both centrally and distributively. Results show decreased instability, with power increases not exceeding 300 MW for more than 11 study cycles in all scenarios. The approach includes a BESS with an installed capacity of 1,060 MWh/160 MW and a virtual inertia of H=6s.
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