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STATUS: In Progress YEAR: 2024 TOPIC AREA: Sustainability, energy, and health Vehicles and infrastructure CENTER: NCST

Electric Truck Fleet Management under Limited and Uncertain Charging Infrastructure Availability

Project Summary

Project number: NCST 3137
Funding source: USDOT
Contract number: DOT 69A3552344814
Funding amount: $300,159.00
Performance period: 1/1/2024 to 12/31/2024

Research Products: NCST Project Webpage

 

Project Description:

 

California has set aggressive targets and timelines for the sales and adoption of zero-emission trucks in the state. However, developing a charging infrastructure network for medium- and heavy-duty electric trucks is challenging and will take time. There has also been much debate about whether the electric grid capacity expansion can keep pace with this anticipated mass adoption of EVs. The goal of this research is to simultaneously address the issues of freight decarbonization and supply chain resiliency by designing electric truck fleet management strategies that: 1) consider the limited availability of charging infrastructure for MD/HD EVs, at least in the near future; 2) can respond to the uncertainties associated with electric grid service interruption or disruption; and 3) analyze the requirements and constraints associated with long-haul and short-haul with respect to electric trucks. This collaborative project will bring together researchers from USC who are experts in long-haul trucking operations and researchers from UCR who possess complementary expertise in short-haul trucking operations. The requirements for long-haul and short-haul operations for electric trucks are substantially different when it comes to distance of travel, parking availability, hours of service (HOS), and infrastructure charging etc. We feel that it is critical to consider all of these issues as a single project, where we can explore together the different synergies and tradeoffs encountered between long-haul and short-haul operations and expand towards "medium-haul" scenarios as well. The results from this research will serve as another "tool" towards the transition to full truck electrification.

P.I. NAME & ADDRESS

Petros Ioannou
Professor of Electrical Engineering Systems, Ming Hsieh Department of Electrical Engineering; USC Viterbi School of Engineering
3740 McClintock Avenue
Hughes Aircraft Electrical Engineering Center (EEB) 200BLos Angeles, CA 90089-2562
United States
[email protected]

CO-P.I.

Kanok Boriboonsomsin
Associate Research Engineer, Bourns College of Engineering - Center for Environmental Research & Technology
1084 Columbia Avenue
Riverside, CA 92507
United States
[email protected]

Matthew Barth
Director, Bourns College of Engineering - Center for Environmental Research & Technology
1084 Columbia Avenue
Riverside, CA 92507
United States
[email protected]