%0 Journal Article %A Fan Tong %A Alan T Jenn %A Derek Wolfson %A Corinne D Scown %A Maximilian Auffhammer %B Environmental Science & Technology %D 2021 %G eng %N 13 %P 8514 - 8523 %R 10.1021/acs.est.1c0127310.1021/acs.est.1c01273.s001 %T Health and Climate Impacts from Long-Haul Truck Electrification %U Human Health, Climate Change, Freight, Battery-Electric Trucks, Air Pollution, Social Costs %V 55 %8 06/2021 %! Environ. Sci. Technol. %X
Long-haul truck electrification has attracted nascent policy support, but the potential health and climate impacts remain uncertain. Here, we developed an integrated assessment approach with high spatial-temporal (km and hourly) resolution to characterize the causal chain from truck operation to charging loads, electricity grid response, changes in emissions and atmospheric concentrations, and the resulting health and climate impacts across the United States. Compared to future diesel trucks, electrified trucking’s net health benefits are concentrated only along the West Coast with a business-as-usual electricity grid. However, with an 80%-renewable electricity grid, most regions would experience net health benefits, and the economic value of avoided climate and health damages exceeds $5 billion annually, an 80% reduction relative to future diesel trucks. Electric trucks with larger batteries may increase health and climate impacts due to additional trips needed to compensate for the payload penalty, but a 2× improvement in the battery specific energy (to ∼320 Wh/kg) could eliminate the additional trips.