Power system inertia, Relevance with High RE penetration and Inertia Monitoring Techniques| Part 3
HTML-код
- Опубликовано: 24 окт 2024
- Inertia is crucial for maintaining frequency stability in power systems. It slows the rate at which frequency declines following a disturbance, thereby reducing the rate of change in frequency (RoCoF). This delay allows other control systems adequate time to respond and stabilize the frequency. However, with increasing integration of inverter-based resources (IBRs) and the retirement of traditional power plants, many power systems worldwide are experiencing a reduction in synchronous inertia, which threatens frequency stability. Therefore, real-time monitoring of grid inertia is essential.
In this three part series, the speaker will explore the concept of inertia, its sources, impacts, and current trends. They will also cover monitoring requirements and discuss various online monitoring methods implemented by ISOs and TSOs around the world. The topic is relevant for Power system engineers and students to come up with new solutions.
In part 3 speaker covers Online and offline methods for monitoring power system inertia across various ISO/TSOs across world including ERCOT/INDIA/DENMARK/NESO/SCOTLAND etc.
#gridoperation #powersystemoperation #powersystemanalysis #loaddispatch #frequencystability #powersystem #powergrid #reliabilityengineering #tranmission #systemoptimization #gridanalysis #WAMS #pmu #WAMPAC #scada #scadasystem
Very very interesting topic keep going on sir....🎉🎉
Dear sir
In india area wise frequency for centre of inertia calculated state or area wise or all india wise?
All india wise at present. However work in progress for area wise specifically for low inertia areas.