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Load-frequency control01:28

Load-frequency control

322
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...
322
The Power Flow Problem and Solution01:26

The Power Flow Problem and Solution

440
Power flow problem analysis is fundamental for determining real and reactive power flows in network components, such as transmission lines, transformers, and loads. The power system's single-line diagram provides data on the bus, transmission line, and transformer. Each bus k in the system is characterized by four key variables: voltage magnitude Vk​, phase angle δk​, real power Pk​, and reactive power Qk​. Two of these four variables are inputs, while the power flow program computes...
440
Control of Power Flow01:30

Control of Power Flow

372
There are several methods to control power flow in power systems:
372
Multimachine Stability01:25

Multimachine Stability

286
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:
286
Generator Voltage Control01:21

Generator Voltage Control

322
Generator voltage control is crucial for maintaining the stable operation of synchronous generators and wind turbines. In older models, a DC generator driven by the rotor delivers DC power to the rotor's field winding, and the power is transferred through slip rings and brushes. In the latest models, static or brushless exciters are used. Static exciters rectify AC power from the generator terminals and then transfer the DC power directly to the rotor. Brushless exciters, on the other hand, use...
322
Time and frequency -Domain Interpretation of Phase-lag Control01:21

Time and frequency -Domain Interpretation of Phase-lag Control

185
Phase-lag controllers are widely used in control systems to improve stability and reduce steady-state errors. A dimmer switch controlling the brightness of a light bulb serves as a practical example of phase-lag control, gradually adjusting the bulb's brightness. Mathematically, phase-lag control or low-pass filtering is represented when the factor 'a' is less than 1.
Phase-lag controllers do not place a pole at zero, but instead influence the steady-state error by amplifying any...
185

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Experimental Investigation of the Hierarchical Control in DC Microgrids Using a Real-time Simulator
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Multi-stage fuzzy based flexible controller for effective voltage stabilization in power systems

Abdel-Fattah Attia1, Adel Sharaf2, Ragab El Sehiemy1

  • 1Electrical Engineering Department, Faculty of Engineering, Kafrelsheikh University, Kafrelsheikh, Egypt; Intelligent System Research Group (ISRG), Kafrelsheikh University, Kafrelsheikh, Egypt.

ISA Transactions
|March 20, 2021
PubMed
Summary

No abstract available in PubMed .

Keywords:
Efficient energy utilizationFACTSGenetic optimized controllerMulti-stage fuzzy logic controllerSwitched modulated filter compensation-SMFCVoltage stabilization

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