Background:
Power system stability demands minimum variation in frequency, so that loadgeneration
balance is maintained throughout the operation period. An Automatic Generation Control
(AGC) monitors the frequency and varies the generation to maintain the balance. A system with
multiple energy sources and use of a fractional controller for efficient control of stability is presented in
the paper. At the outset a 2-area thermal system with governor dead band, generation rate constraint and
boiler dynamics have been applied.
Methods:
A variation of load is deliberated for the study of the considered system with Harmony Search
(HS) algorithm, applied for providing optimization of controller parameters. Integral Square Time
Square Error (ISTSE) is chosen as objective function for handling the process of tuning controller
parameters.
:
A study of similar system with various lately available techniques such as TLBO, hFA-PS and BFOA
applied to PID, IDD and PIDD being compared to HS tuned fractional controller is presented under step
and dynamic load change. The effort extended to a single area system with reheat thermal plant, hydel
plant and a unit of wind plant is tested with the fractional controller scheme.
Results:
The simulation results provide a clear idea of the superiority of the combination of HS
algorithm and FO-PID controller, under dynamically changing load. The variation of load is taken from
1% to 5% of the connected load.
Conclusion:
Finally, system robustness is shown by modifying essential factors by ± 30%.
Automatic generation control of multi-area power systems with diverse energy sources using Teaching Learning Based Optimization algorithm
