is a prominent textbook by , specifically updated for the Anna University 2021 Regulations (Course Code: EE3602).
Power System Operation and Control by , published by Lakshmi Publications , is a specialized textbook frequently used in undergraduate Electrical and Electronics Engineering (EEE) programs, particularly those following the Anna University syllabus. Key Content Overview
While syllabi change slightly by regulation, the core topics in the 2021 edition generally cover the following five units:
Managing the "Tie-line" bias control to ensure that different regions of a grid support one another during disturbances. 2. Reactive Power and Voltage Control is a prominent textbook by , specifically updated
The financial penalty of heating up a cold boiler. 3. Hydrothermal Scheduling
Focuses on generator operating costs, combined cycle plants, and optimization.
While active power regulates frequency, reactive power governs system voltage. Because reactive power cannot travel over long distances due to high inductive line losses, it must be managed locally. The framework evaluates several control methods: including Dynamic Programming and Lagrange Relaxation
: Using governor controls on turbines to adjust speed and maintain a nominal frequency (e.g., 50Hz or 60Hz).
: Automatically adjusting excitation systems at buses to keep voltage profiles stable. 4. Modern Grid Challenges
The PDF 2021 edition of "Power System Operation and Control" by Jeraldin Ahila can be downloaded from various online sources, including: to solve these complex
: Using local controls (governor control) and central area control centers to manage voltage profiles and load configurations.
Focuses on the responsibility of operators to deliver power reliably, including load curves, diversity factors, and reserve requirements. Economic Dispatch:
One of the most heavily emphasized sections in contemporary power system literature is the mechanism behind frequency regulation. Single-Area vs. Two-Area Systems
The text details mathematical approaches, including Dynamic Programming and Lagrange Relaxation, to solve these complex, non-linear optimization problems. 5. Hydro-Thermal Coordination