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相关概念视频

Fast Decoupled and DC Powerflow01:24

Fast Decoupled and DC Powerflow

152
The fast decoupled power flow method addresses contingencies in power system operations, such as generator outages or transmission line failures. This method provides quick power flow solutions, essential for real-time system adjustments. Fast decoupled power flow algorithms simplify the Jacobian matrix by neglecting certain elements, leading to two sets of decoupled equations:
152
Multimachine Stability01:25

Multimachine Stability

130
Multimachine stability analysis is crucial for understanding the dynamics and stability of power systems with multiple synchronous machines. The objective is to solve the swing equations for a network of M machines connected to an N-bus power system.
In analyzing the system, the nodal equations represent the relationship between bus voltages, machine voltages, and machine currents. The nodal equation is given by:
130
Power System Three-Phase Short Circuits01:21

Power System Three-Phase Short Circuits

72
Determining the subtransient fault current in a power system involves representing transformers by their leakage reactances, transmission lines by their equivalent series reactances, and synchronous machines as constant voltage sources behind their subtransient reactances. In this analysis, certain elements are excluded, such as winding resistances, series resistances, shunt admittances, delta-Y phase shifts, armature resistance, saturation, saliency, non-rotating impedance loads, and small...
72
Line Protection with Impedance Relays01:27

Line Protection with Impedance Relays

64
Coordinating time-delay overcurrent relays in complex radial systems and directional overcurrent relays in multi-source transmission loops can be challenging. Impedance relays address these issues by responding to the voltage-to-current ratio, specifically measuring the apparent impedance of a line. These relays become more sensitive during faults as current increases and voltage decreases, thereby reducing the apparent impedance.
Under normal conditions, low load currents keep the measured...
64
Bus Impedance Matrix01:24

Bus Impedance Matrix

98
Calculating subtransient fault currents for three-phase faults in an N-bus power system involves using the positive-sequence network. When a three-phase short circuit occurs at a specific bus, the analysis uses the superposition method to evaluate two separate circuits.
In the first circuit, all machine voltage sources are short-circuited, leaving only the prefault voltage source at the fault location. The positive-sequence bus impedance matrix can be determined by solving the nodal equations,...
98
Differential Relays01:20

Differential Relays

97
Differential relays are used to protect generators, buses, and transformers by comparing electrical quantities at different points. When a fault occurs, the difference in current between the two points triggers the relay to operate, opening the circuit breaker. Under normal conditions, the current entering (i1) and leaving (i2) a generator are equal. When a fault occurs, however, these currents become unequal, and the difference current flows in the relay operating coil, causing the relay to...
97

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相关实验视频

Updated: May 27, 2025

Author Spotlight: Enhancement of Salient Object Detection for Smart Grid Applications
03:31

Author Spotlight: Enhancement of Salient Object Detection for Smart Grid Applications

Published on: December 15, 2023

453

强大的修改被动岛屿检测微电网使用基于数学形态的双算法算法.

Fayez F M El-Sousy1, Nauman Ali Larik2,3, Wei Lue2

  • 1Department of Electrical Engineering, College of Engineering, Prince Sattam Bin Abdulaziz University, Al-Kharj, 16273, Saudi Arabia. f.elsousy@psau.edu.sa.

Scientific reports
|February 20, 2025
PubMed
概括
此摘要是机器生成的。

微电网的新被动岛屿检测策略使用数学形态过器 (MMF) 和滑窗中位过器 (SWMBMF). 这种方法达到99%的准确性,在5ms内检测到岛屿事件,而不可检测区 (NDZ) 是可以忽略的.

关键词:
岛屿检测检测 岛屿检测检测数学形态学过器数学形态学过器非检测区 非检测区被动方法是被动的方法.

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Published on: December 15, 2023

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科学领域:

  • 电气工程 电气工程
  • 电力系统 电力系统
  • 整合可再生能源的整合

背景情况:

  • 分布式发电 (DG) 的微电网面临着岛屿检测的挑战.
  • 传统的方法在检测速度,可靠性和非检测区 (NDZ) 上扎.

研究的目的:

  • 为微电网提出一种新的修改过的被动岛屿检测策略.
  • 为了提高检测速度,可靠性,并最大限度地减少NDZ在岛屿检测.

主要方法:

  • 使用基于滑窗方法的中间波器 (SWMBMF) 来估计噪音电压信号.
  • 使用数学形态过器 (MMF) 计算电压残余指数 (VRI).
  • 将VRI与岛屿检测和区分网状况的值进行比较.

主要成果:

  • 在岛屿检测中实现了99%的准确性.
  • 在5ms内成功识别了岛屿事件.
  • 证明可以忽略不计的非检测区 (NDZ).
  • 在各种场景下通过MATLAB/Simulink模拟验证了可靠性.

结论:

  • 拟议的货币市场基金和SWMBMF战略有效地解决了微电网岛屿检测挑战.
  • 快速可靠的岛屿检测可以提高微电网的稳定性和运行安全性.
  • 该方法比传统的岛屿检测技术有了显著的改进.