Research on the Optimization of Primary Frequency Modulation Automatic Control Algorithm for Thermal Power Units Based on Instrumentation
With the rapid development of the power industry,the primary frequency regulation capability of thermal power units is crucial for maintaining grid stability.This article proposes an optimization algorithm based on instrumentation to address the shortcomings of existing automatic control algorithms for primary frequency regulation in thermal power units.By monitoring the unit's operating status in real-time and dynamically adjusting the frequency regulation parameters,the algorithm improves the speed and accuracy of frequency regulation response.The effectiveness of the optimized algorithm is verified through experiments,and the experimental results are analyzed in detail.The research results show that the optimized algorithm can significantly enhance the primary frequency regulation performance of thermal power units,providing strong support for the stable operation of the power grid.
thermal power unitprimary frequency regulationautomatic control algorithmoptimizationinstrumentation