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相关概念视频

Distribution Reliability and Automation01:25

Distribution Reliability and Automation

107
Distribution reliability in electrical power systems is critical for ensuring an uninterrupted power supply to consumers at minimal cost. According to IEEE Standard Terms, reliability is the probability that a device will function without failure over a specified time period or amount of usage. For electric power distribution, this translates to maintaining continuous power supply and addressing customer concerns over power outages. Several indices, as defined by IEEE Standard 1366-2012, are...
107
Bus Impedance Matrix01:24

Bus Impedance Matrix

120
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,...
120
Multimachine Stability01:25

Multimachine Stability

151
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:
151
Secondary Distribution01:25

Secondary Distribution

85
Secondary distribution systems provide electrical energy at the utilization voltage levels from distribution transformers to customer meters. Typical secondary voltages in the United States include 120/240 V for residential use, 208Y/120 V for residential and commercial use, and 480Y/277 V for industrial and high-rise commercial use.
In residential areas, 120/240 V single-phase, three-wire service is commonly used for lighting, outlets, and large appliances. Urban areas with high-density loads...
85
Primary Distribution01:28

Primary Distribution

102
Primary distribution systems deliver electrical power from substations to consumers through various voltage classes, with 15-kV class voltages being predominant among U.S. utilities. Older 2.5- and 5-kV classes are being replaced by 15-kV primaries, while higher 25- to 34.5-kV classes are used in high-density urban areas and rural regions with long feeders. Three-phase, four-wire multigrounded systems are widely employed for balanced power delivery, using the neutral wire as a grounding point.
102
Maximum Power Flow and Line Loadability01:23

Maximum Power Flow and Line Loadability

107
The maximum power flow for lossy transmission lines is derived using ABCD parameters in phasor form. These parameters create a matrix relationship between the sending-end and receiving-end voltages and currents, allowing the determination of the receiving-end current. This relationship facilitates calculating the complex power delivered to the receiving end, from which real and reactive power components are derived.
107

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相关实验视频

Updated: Jun 29, 2025

Author Spotlight: Simulation and Analysis of the Temperature Rise of Ring Main Unit Equipment
04:35

Author Spotlight: Simulation and Analysis of the Temperature Rise of Ring Main Unit Equipment

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使用PMU技术进行智能配电网络电压估计,考虑零注入约束.

Swathi Tangi1, D N Gaonkar2, Ramakrishna S S Nuvvula3

  • 1Department of Electrical and Electronics Engineering, Manipal Instiute of Technology (MIT), Manipal Academy of Higher Education (MAHE), Manipal, India.

PloS one
|March 25, 2024
PubMed
概括
此摘要是机器生成的。

本研究介绍了一种使用 Phasor 测量单元 (PMU) 进行电力系统控制的新方法. 它通过准确处理零注入 (ZI) 数据来改善状态估计,增强电网监控和保护.

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相关实验视频

Last Updated: Jun 29, 2025

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A Modeling and Simulation Method for Preliminary Design of an Electro-Variable Displacement Pump
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科学领域:

  • 电气工程 电气工程
  • 电力系统分析 分析 分析
  • 网络监控 网络监控

背景情况:

  • 阶段测量单元 (PMU) 对于实时电力系统监控和控制至关重要.
  • 传统的状态估计方法在零注入 (ZI) 测量时遇到困难,导致计算错误.
  • 精确的电网控制需要高效处理各种测量类型.

研究的目的:

  • 开发一种新的电力系统状态估计方法,严格满足零注入标准.
  • 为了提高计算电压配置文件和网络可观测性的计算效率.
  • 为了优化分相测量单元 (PMU) 在配送网络中的放置.

主要方法:

  • 一种新的状态估计方法,旨在严格执行零注入约束.
  • 使用拟议方法计算电压配置文件和网络可观测性.
  • 模拟使用MATLAB进行验证的标准IEEE分发网络.

主要成果:

  • 提出的方法成功地满足了零注入标准,而不会影响计算效率.
  • 对配电网实现了精确的电压配置和可观察性计算.
  • 对ZI总线对系统电压配置文件的影响进行了评估.

结论:

  • 该研究提出了一种有效的电力系统状态估计方法,特别是解决零注入数据的挑战.
  • 这些发现简化了最佳PMU位置的确定,并评估了ZI总线的影响.
  • 这项研究有助于加强发电系统的监控和控制.