Time-Domain Differential Protection Based on Operating and Restraining Trajectory Indices for Lines Connecting Battery Storage Energy Stations

IF 5.7 1区 工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC Journal of Modern Power Systems and Clean Energy Pub Date : 2024-02-05 DOI:10.35833/MPCE.2023.000618
Yingyu Liang;Cunyue Pan
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Abstract

Battery energy storage stations (BESSs) pose several challenges for both phasor-based differential protection and the newly-proposed time-domain differential protection. These challenges include low sensitivity and even rejection. Besides, the negative impact of various nonideal conditions, including current transformer (CT) saturation, errors, and outliers, on the security of differential protection remains an important problem. Motivated by the aforementioned issues, this study accounts for the trajectory distribution discrepancy on Cartesian plane under various conditions and proposes a time-domain differential protection method. In this paper, the trajectory formed by operating and restraining current samples is developed. Subsequently, after considering different operating states, the fault severity levels, and nonideal conditions, the variances in trajectory distribution between internal and external faults are extensively analyzed. On this basis, the Cartesian plane is divided into operating, uncertainty, and restraining zones. Further, the operating and restraining trajectory indices are meticulously designed and a protection criterion based on these indices is formed to accurately separate internal faults from other events, unaffected by CT saturation, errors, and outliers. The exceptional performance of the proposed protection method is extensively validated through PSCAD simulations and a hardware-in-the-loop testing platform. Regarding the dependability, sensitivity, and security, the proposed protection method outperforms three state-of-the-art differential protection methods.
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基于电池储能站连接线路的运行和限制轨迹指数的时域差分保护
电池储能站(BESS)对基于相位的差动保护和新提出的时域差动保护都提出了一些挑战。这些挑战包括灵敏度低,甚至无法抑制。此外,各种非理想条件(包括电流互感器 (CT) 饱和、误差和异常值)对差动保护安全性的负面影响仍然是一个重要问题。基于上述问题,本研究考虑了各种条件下笛卡尔平面上的轨迹分布差异,并提出了一种时域差动保护方法。本文开发了由运行电流样本和限制电流样本形成的轨迹。随后,在考虑了不同的运行状态、故障严重程度和非理想条件后,广泛分析了内部故障和外部故障在轨迹分布上的差异。在此基础上,将笛卡尔平面划分为运行区、不确定区和限制区。此外,还精心设计了工作轨迹指数和限制轨迹指数,并根据这些指数形成了保护标准,以准确区分内部故障和其他事件,且不受 CT 饱和、误差和异常值的影响。通过 PSCAD 仿真和硬件在环测试平台,对所提出的保护方法的卓越性能进行了广泛验证。在可靠性、灵敏度和安全性方面,所提出的保护方法优于三种最先进的差分保护方法。
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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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Contents Contents Regional Power System Black Start with Run-of-River Hydropower Plant and Battery Energy Storage Power Flow Calculation for VSC-Based AC/DC Hybrid Systems Based on Fast and Flexible Holomorphic Embedding Machine Learning Based Uncertainty-Alleviating Operation Model for Distribution Systems with Energy Storage
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