Electric vehicles (EVs) are emerging as unexpected allies in bolstering grid resiliency as the United States grapples with increasing demands on its aging power infrastructure. Recent research conducted by the National Renewable Energy Laboratory (NREL) and Leiden University’s Institute of Environmental Sciences highlights the potential of vehicle-to-grid (V2G) bidirectional charging programs to offer short-term grid storage solutions.
In a world where weather-related blackouts and power failures are increasingly common, the timing couldn't be better for exploring innovative solutions. U.S. electricity consumption patterns often clash with energy supply, with peak demand occurring during the evenings when solar panels no longer generate power. In response, utility companies have introduced time-of-use rate structures to encourage consumers to reduce electricity consumption during peak hours.
NREL researchers are now investigating the role of fully charged EV batteries in alleviating this issue. By utilizing V2G programs, electric vehicles can function as a distributed network of backup power, supplying energy to homes and communities during peak demand periods. Once demand subsides, EVs can recharge, preparing for the next cycle.
Paul Gasper, a battery degradation scientist at NREL, explains, "Picture EVs as mobile battery storage systems. EVs can absorb excess power when available and store that energy for future needs. There is potential to store renewable energy within the global EV fleet to improve the flexibility and resilience of our power grid."
NREL's research delves into the impacts and opportunities of V2G programs for EV owners. Using advanced modeling and analysis, the study explores how the deployment of EVs, battery degradation, and owner participation can enhance the global EV battery capacity available for grid storage. The research also reveals that participating in V2G programs can extend the life of EV batteries by maintaining a lower state of charge while parked, which contributes to battery health.
However, to fully leverage the potential of V2G, the existing grid infrastructure will require significant updates. A recent NREL report called the "2030 National Charging Network" quantitatively assesses the needs for a national charging network capable of supporting the transition to EVs in the U.S. The study projects the need for 28 million charging ports by 2030 to support a mid-adoption scenario of 33 million light-duty EVs on the road.
Andrew Meintz, an EV grid integration researcher at NREL, emphasizes, "V2G charging services will increase demand across the charging infrastructure and prompt changes to our behavioral patterns, potentially increasing midday use of charging ports to capture excess energy generated from solar panels. Our analysis must continue to adapt to the evolving opportunities and impacts of future EV charging needs."
Electric vehicles are not just transforming transportation; they're becoming a critical component of the grid's resilience in an electrified future.
Source: nrel.gov