System-Level EMI of an Artificial Router System With Multiple Radiators: Prediction and Validation

Zhang, Wei; Meiguni, Javad Soleiman; Ghosh, Kaustav; Patnaik, Abhishek; Sorensen, Morten; Hosseinbeig, Ahmad; Pommerenke, David; Rollin, Jacques; Li, Jing; Liu, Qian; Sochoux, Philippe; Kim, DongHyun

doi:10.1109/TEMC.2020.3006517

his work investigates the potential of using aggregate controllable loads and energy storage systems from multiple heterogeneous feeders to jointly optimize a utility's energy procurement cost from the real-time market and their revenue from ancillary service markets. Toward this, we formulate an optimization problem that co-optimizes real-time and energy reserve markets based on real-time and ancillary service market prices, along with available solar power, storage and demand data from each of the feeders within a single distribution network. The optimization, which includes all network system constraints, provides real/reactive power and energy storage set-points for each feeder as well as a schedule for the aggregate system's participation in the two types of markets. We evaluate the performance of our algorithm using several trace-driven simulations based on a real-world circuit of a New Jersey utility. The results demonstrate that active participation through controllable loads and storage significantly reduces the utility's net costs, i.e., real-time energy procurement costs minus ancillary market revenues.

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