Machine learning model to project the impact of COVID-19 on US motor gasoline demand

Author(s)

Ou, Shiqi; He, Xin; Ji, Weiqi; Chen, Wei; Sui, Lang; Gan, Yu; Lu, Zifeng; Lin, Zhenhong; Deng, Sili; Przesmitzki, Steven; Bouchard, Jessey; ... Show more Show less

Abstract

Owing to the global lockdowns that resulted from the COVID-19 pandemic, fuel demand plummeted and the price of oil futures went negative in April 2020. Robust fuel demand projections are crucial to economic and energy planning and policy discussions. Here we incorporate pandemic projections and people’s resulting travel and trip activities and fuel usage in a machine-learning-based model to project the US medium-term gasoline demand and study the impact of government intervention. We found that under the reference infection scenario, the US gasoline demand grows slowly after a quick rebound in May, and is unlikely to fully recover prior to October 2020. Under the reference and pessimistic scenario, continual lockdown (no reopening) could worsen the motor gasoline demand temporarily, but it helps the demand recover to a normal level quicker. Under the optimistic infection scenario, gasoline demand will recover close to the non-pandemic level by October 2020.

Date issued

2020-07

URI

https://hdl.handle.net/1721.1/130586

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering

Journal

Nature Energy

Publisher

Springer Science and Business Media LLC

Citation

Ou, Shiqi et al. "Machine learning model to project the impact of COVID-19 on US motor gasoline demand." Nature Energy 5, 9 (July 2020): 666–673. © 2020 The Author(s)

Version: Author's final manuscript

ISSN

2058-7546