Distributed Stochastic Scheduling of Massive Backup Batteries in Cellular Networks for Operational Reserve and Frequency Support Ancillary Services

IF 5.7 1区 工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Kun Li;Jiakun Fang;Xiaomeng Ai;Shichang Cui;Rongkang Zhao;Jinyu Wen
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Abstract

Base station (BS) backup batteries (BSBBs), with their dispatchable capacity, are potential demand-side resources for future power systems. To enhance the power supply reliability and post-contingency frequency security of power systems, we propose a two-stage stochastic unit commitment (UC) model incorporating operational reserve and post-contingency frequency support provisions from massive BSBBs in cellular networks, in which the minimum backup energy demand is considered to ensure BS power supply reliability. The energy, operational reserve, and frequency support ancillary services are co-optimized to handle the power balance and post-contingency frequency security in both forecasted and stochastic variable renewable energy (VRE) scenarios. Furthermore, we propose a dedicated and scalable distributed optimization framework to enable autonomous optimizations for both dispatching center (DC) and BSBBs. The BS model parameters are stored and processed locally, while only the values of BS decision variables are required to upload to DC under the proposed distributed optimization framework, which safeguards BS privacy effectively. Case studies on a modified IEEE 14-bus system demonstrate the effectiveness of the proposed method in promoting VRE accommodation, ensuring post-contingency frequency security, enhancing operational economics, and fully utilizing BSBBs' energy and power capacity. Besides, the proposed distributed optimization framework has been validated to converge to a feasible solution with near-optimal performance within limited iterations. Additionally, numerical results on the Guangdong 500 kV provincial power system in China verify the scalability and practicality of the proposed distributed optimization framework.
蜂窝网络中大规模备用电池的分布式随机调度,用于运行储备和频率支持辅助服务
基站(BS)备用电池(BSBB)具有可调度容量,是未来电力系统潜在的需求侧资源。为了提高电力系统的供电可靠性和应急后的频率安全性,我们提出了一种两阶段随机单位承诺(UC)模型,将蜂窝网络中大规模 BSBB 的运行储备和应急后频率支持供应纳入其中,其中考虑了最小备用能源需求,以确保基站供电可靠性。对能源、运行储备和频率支持辅助服务进行了共同优化,以处理预测和随机可再生能源(VRE)情况下的电力平衡和应急后频率安全问题。此外,我们还提出了一个专用的、可扩展的分布式优化框架,以实现调度中心(DC)和 BSBB 的自主优化。BS 模型参数在本地存储和处理,而在所提出的分布式优化框架下,只需将 BS 决策变量的值上传到 DC,从而有效保护了 BS 的隐私。在改进的 IEEE 14 总线系统上进行的案例研究证明了所提方法在促进 VRE 容纳、确保应急后频率安全、提高运行经济性以及充分利用 BSBB 能源和电力容量方面的有效性。此外,经过验证,所提出的分布式优化框架能在有限的迭代时间内收敛到接近最优性能的可行解决方案。此外,中国广东 500 千伏省级电力系统的数值结果也验证了所提出的分布式优化框架的可扩展性和实用性。
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来源期刊
Journal of Modern Power Systems and Clean Energy
Journal of Modern Power Systems and Clean Energy ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
12.30
自引率
14.30%
发文量
97
审稿时长
13 weeks
期刊介绍: Journal of Modern Power Systems and Clean Energy (MPCE), commencing from June, 2013, is a newly established, peer-reviewed and quarterly published journal in English. It is the first international power engineering journal originated in mainland China. MPCE publishes original papers, short letters and review articles in the field of modern power systems with focus on smart grid technology and renewable energy integration, etc.
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