A framework for risk assessment and optimal line upgrade selection to mitigate wildfire risk.

As wildfires in the United States are becoming more frequent and severe, mitigating the risk of wildfire ignitions from power line faults is an increasingly crucial effort. Long-term ignition prevention strategies, especially converting overhead lines to underground cables, are expensive. Thus, it is important to prioritize upgrades on lines that will reduce wildfire ignition risk the most. However, since so many factors contribute to ignition risk, it is difficult to quantify the wildfire risk associated with power lines. This paper examines how various risk definitions based on historical wildfire risk maps can be used to inform transmission upgrade planning. These risk metrics are evaluated using an optimization model that determines which overhead lines should be undergrounded such that the total wildfire risk in the network is minimized. The risk assignment and upgrade selection are tested on both a synthetic network and the actual transmission lines in California. • Addresses risk of electric power line faults leading to wildfire ignitions. • Proposes a methodology to quantify wildfire risk of electric power lines. • Leverages current wildfire risk maps and estimates ignition probability from historical trends. • Identifies optimal set of lines to underground to reduce wildfire risk. [ABSTRACT FROM AUTHOR]