Litcius/Paper detail

Exploring the cost and emissions impacts, feasibility and scalability of battery electric ships

Hee Seung Moon, Won Young Park, Thomas P. Hendrickson, Amol Phadke, Natalie Popovich

2024Nature Energy56 citationsDOIOpen Access PDF

Abstract

The United States’ greenhouse gas (GHG) emissions reduction goals, along with targets set by the International Maritime Organization, create an opportunity for battery electric shipping. In this study, we model life-cycle costs and GHG emissions from shipping electrification, leveraging ship activity datasets from across the United States in 2021. We estimate that retrofitting 6,323 domestic ships under 1,000 gross tonnage to battery electric vessels would reduce US domestic shipping GHG emissions by up to 73% by 2035 from 2022 levels. By 2035, electrifying up to 85% of these ships could become cost effective versus internal combustion engine ships if they cover 99% of annual trips and charge from a deeply decarbonized grid. We find that charging demands from electrifying these ships could be concentrated at just 20 of 150 major ports nationwide. This study demonstrates that retrofitting to battery electric vessels has economic potential and could significantly accelerate GHG emission reductions. Battery electric shipping could contribute to US GHG emissions reductions goals. This study finds that electrifying 6,323 ships under 1,000 gross tonnage could cut U.S. maritime sector emissions up to 73% by 2035.

Topics & Concepts

TonnageElectrificationGreenhouse gasBattery (electricity)RetrofittingEnvironmental scienceBattery electric vehicleAutomotive engineeringEngineeringEnvironmental economicsElectricityEconomicsElectrical engineeringOceanographyGeologyPhysicsStructural engineeringPower (physics)Quantum mechanicsAdvanced Battery Technologies ResearchMaritime Transport Emissions and EfficiencyElectric Vehicles and Infrastructure