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相关概念视频

Load-frequency control01:28

Load-frequency control

623
Load-frequency control (LFC) is vital for maintaining power system stability, ensuring that frequency and power flows remain within acceptable limits during load changes. Turbine-governor control eliminates rotor accelerations and decelerations following load changes. However, a steady-state frequency error persists when the change in the turbine-governor reference setting is zero. In an interconnected power system, each area agrees to export or import a scheduled amount of power through...
623
First Order Systems01:21

First Order Systems

399
First-order systems, such as RC circuits, are foundational in understanding dynamic systems due to their straightforward input-output relationship. Analyzing their responses to different input functions under zero initial conditions reveals significant insights into system behavior.
When a first-order system is subjected to a unit-step input, its response is characterized by its transfer function. By applying the Laplace transform of the unit-step input to the transfer function, expanding the...
399
Fast Decoupled and DC Powerflow01:24

Fast Decoupled and DC Powerflow

726
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:
726
Multimachine Stability01:25

Multimachine Stability

545
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:
545
Power System Three-Phase Short Circuits01:21

Power System Three-Phase Short Circuits

524
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...
524
Phase-lead and Phase-lag Controllers01:22

Phase-lead and Phase-lag Controllers

528
Understanding the working function of different types of controllers can be illustrated with practical analogies, such as adjusting a stereo's volume equalizer. Cranking up the bass involves a phase-lead controller, which functions as a high-pass filter, while increasing the treble uses a phase-lag controller, which acts as a low-pass filter. PD controllers, similar to high-pass filters, enhance the system's response to high-frequency components. PI controllers, akin to low-pass...
528

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基于预测器的分数顺序滑动模式LFC用于具有输入延迟的互连电力系统.

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    本研究引入了基于预测器的分数顺序滑动模式控制,以管理输入延迟的电力系统中的负载频率. 该方法通过预测未来状态和补偿干扰来提高系统稳定性和响应.

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    科学领域:

    • 电气工程 电气工程
    • 控制系统理论 控制系统理论
    • 电力系统分析 分析 分析

    背景情况:

    • 相互连接的电力系统需要强大的负载频率控制 (LFC) 来保持稳定性.
    • 控制系统的输入延迟可以显著降低性能和稳定性.
    • 分数顺序控制在系统动态和稳定性方面提供了潜在的优势.

    研究的目的:

    • 为相互连接的电力系统开发基于预测器的分数顺序滑动模式控制 (FOSMC) 策略.
    • 为了有效地解决和补偿控制循环中的输入延迟.
    • 为了提高负载频率控制的稳定性和动态性能.

    主要方法:

    • 使用基于预测的方法来估计和补偿系统输入延迟.
    • 一个新的分数顺序滑动模式控制器是使用预测器设计的,减少了对直接可测量的状态的依赖.
    • 整合了一个干扰观察员来估计和抵消外部干扰.

    主要成果:

    • 预测器有效地用无延迟的等价物取代延迟的控制输入.
    • 拟议的FOSMC控制器显示了更好的动态响应和减少对系统状态的依赖.
    • 干扰观察员通过积极补偿不确定性来提高系统的稳定性.

    结论:

    • 基于预测器的FOSMC策略被验证为在延迟互联电力系统中负载频率控制的有效方法.
    • 该方法提供了一个强大而高性能的解决方案,以保持电网稳定性.
    • 该方法在现代电网中的实际实施方面显示出显著的前景.