Abstract-As energy trading products cover shorter time periods and demand response programs move toward real-time pricing, financial market-based activity impacts ever more directly the physical operation of the system. To begin to understand the complex interactions between the market-driven operation signals, the engineered controlled schemes, and the laws of physics, new system modeling and simulation techniques must be explored. This discussion describes requirements for new simulation tools to address such market transaction control interactions and an approach to capture the dynamic coupling between energy markets and the physical operation of the power system appropriate for dispatcher reaction time frames.
Revised: June 8, 2011 |
Published: June 1, 2004
Citation
Widergren S.E., J.M. Roop, R.T. Guttromson, and Z. Huang. 2004.Simulating the Dynamic Coupling of Market and Physical System Operations. In IEEE Power Engineering Society General Meeting, 2004, 1, 748-753. Piscataway, New Jersey:IEEE Power Engineering Society.PNNL-SA-40415.