Approaches to Perform Transient Stability Studies in Industrial Power Systems

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Abstract:

Many large oil and gas plants have installed cogeneration systems or gas and steam generators to increase efficiency, reduce electricity costs, and improve system reliability. However, adding synchronous generators to a power system significantly increases its complexity and introduces stability concerns. Power system stability requires all synchronous machines in an interconnected electrical system to remain in synchronism; otherwise, the generators may become unstable or lose stability, potentially causing a system-wide shut down.

Following IEEE recommended practices and drawing on the authors’ extensive experience in modeling power system dynamics and conducting studies, this tutorial addresses approaches and procedures for performing transient stability studies. It helps engineers understand the necessary protections and operations to ensure stable system operation. Relevant IEEE standards, task force reports, and important literature in the area are referenced in the tutorial.



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  • Co-sponsored by IEEE SD IAS, PES and PELS Chapters
  • Starts 04 October 2024 07:00 AM UTC
  • Ends 11 October 2024 01:00 AM UTC
  • No Admission Charge


  Speakers

JJ Dai

Topic:

Approaches to Perform Transient Stability Studies in Industrial Power Systems

Biography:

JJ Dai earned his Ph.D. in Electrical Engineering from The University of Toledo, USA, in 1995. He is currently a consultant at the University of Tennessee, Knoxville, USA, where he supports renewable energy projects funded by the U.S. National Science Foundation and the U.S. Department of Energy. Previously, he spent 21 years at ETAP developing industrial and commercial power system analysis software, followed by 8 years at ETAON providing industrial power system solutions. He also worked for 1 year at the U.S. Department of Energy, managing projects focused on integrating solar technology into the power grid. Additionally, he played an active role in developing standards for I&C power system analysis and studies. He is a recognized subject matter expert in power system modeling, simulation, and analysis.

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Agenda

6:00 – 6:05 PM: Networking and Refreshments
6:05 – 7:15 PM: 
Presentation
7:15 – 7:30 PM: Open Q/A and open forum discussions