ARCHIVES
VOL. 7, ISSUE 2 (2023)
Enhancing power systems with renewable energy sources via frequency regulation
Authors
Shilpa. Dhananjay Joshi, Dr. Vijayalaxmi Biradar, Dr. Manoj. R. Tarambale
Abstract
A crucial tactic for attaining sustainable,
low-carbon power generation is the incorporation of renewable energy sources
(RES) into contemporary power systems. Power system stability relies on
frequency management, which is made more difficult by the intermittent and
unpredictable character of renewable energy sources (RES) including wind,
solar, and small-scale hydro. When there is an imbalance between generation and
load, frequency deviations arise. In grids that are dominated by renewable
energy sources, the lower inertia makes these oscillations much worse. Using
sophisticated control algorithms, energy storage devices, and hybrid generation
models that combine RES with conventional sources, this research discusses
approaches for improving frequency regulation. Fast frequency response is
addressed by battery energy storage, flywheels, and supercapacitors;
demand-side management and predictive control methods that use real-time data
for proactive regulation are also covered. Furthermore, optimization strategies,
such as AI-based approaches and model predictive control, are investigated for
their ability to enhance system resilience. Case studies show how frequency
support methods and coordinated RES integration may maximize renewable use and
improve grid dependability. Stable frequency maintenance in future smart grids
with significant renewable penetration requires a multi-layered strategy that
combines hardware solutions, intelligent control, and regulatory frameworks.
This is emphasized by the findings. The continuous shift towards power systems
that are cleaner and more durable is aided by this effort.
Download
Pages:44-48
How to cite this article:
Shilpa. Dhananjay Joshi, Dr. Vijayalaxmi Biradar, Dr. Manoj. R. Tarambale "Enhancing power systems with renewable energy sources via frequency regulation". International Journal of Advanced Engineering and Technology, Vol 7, Issue 2, 2023, Pages 44-48
Download Author Certificate
Please enter the email address corresponding to this article submission to download your certificate.