核心概念
Optimizing power system operations during Public Safety Power Shut-offs (PSPS) involves balancing costs and wildfire risk.
摘要
The article discusses the optimization of power system operations during PSPS to reduce wildfire risk. It introduces deterministic and stochastic frameworks to analyze the impact of large wildfires on generator commitments and transmission line de-energization strategies. The study compares costs between different optimization models, highlighting the benefits of considering economic costs over operator experience in decision-making. Various constraints, such as unit commitment and operational constraints, are discussed in detail. The research emphasizes the importance of incorporating uncertainties in demand forecasts for effective decision-making.
统计
Adjustments to load servicing occur at hourly intervals.
Generator production costs are considered in the deterministic objective function.
Annual wildfire frequency is predicted to increase by 14% by 2030 and 30% by 2050.
The proposed mean-CVaR stochastic program generates less total expected costs evaluated with respect to higher demand scenarios.
There is large uncertainty in the sampled probability distribution of outage scenarios used in stochastic optimization.
引用
"Successful power system operation during PSPS involves coordination across different time scales."
"The optimal costs of commitment, operation, and lost load are compared to prior optimal power shut-off formulations."
"Operators should add fairness functions to PSPS planning to spread the burden of load shed and de-energizations across the grid."