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Incorporating the AC power flow equations into unit commitment models has the potential to avoid costly corrective actions required by less accurate power flow approximations. However, research on unit commitment with AC power flow constraints has been limited to small test networks.
This work investigates large-scale AC unit commitment problems for the day-ahead market and develops decomposition algorithms capable of obtaining high-quality solutions at industry-relevant scales.
A simple algorithm that only seeks to satisfy unit commitment, reserve, and AC power balance constraints can obtain surprisingly high-quality solutions to the AC unit commitment problem. However, a naive strategy that prioritizes reserve feasibility leads to AC infeasibility, motivating the need to design heuristics that can effectively balance reserve and AC feasibility.
Problem decomposition and parallelization across multiple cores is essential to achieving the runtime requirements in large datasets with thousands of buses.
The results illustrate that off-the-shelf optimization solvers are incapable of solving the full AC unit commitment problem within specified time limits, but it is possible with current optimization methods to develop high-quality heuristics that can solve industry-scale instances within reasonable time limits.
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by Robert Parke... às arxiv.org 04-02-2024
https://arxiv.org/pdf/2404.00200.pdfPerguntas Mais Profundas