Charging your electric vehicle at work instead of at home, and during the day instead of at night, could cut costs and help the grid, a new study shows.
In March, the researchers published a paper on a model they created for charging demand that can be applied to an array of populations and other factors.
For their new study in Nature Energy, the team applied their model to the whole of the western United States and examined the stress the region’s electric grid will come under by 2035 from growing EV ownership. In a little over a decade, rapid EV growth alone could increase peak electricity demand by up to 25%, assuming a continued dominance of residential, nighttime charging, the new study finds.
To limit the high costs of all that new capacity for generating and storing electricity, drivers should move to daytime charging at work or public charging stations, which would also reduce greenhouse gas emissions, the researchers say.
This finding has policy and investment implications for the region and its utilities, especially since California moved in late August to ban sales of gasoline-powered cars and light trucks starting in 2035.
“We encourage policymakers to consider utility rates that encourage day charging and incentivize investment in charging infrastructure to shift drivers from home to work for charging,” says the study’s co-senior author, Ram Rajagopal, an associate professor of civil and environmental engineering at Stanford University.
Charge your EV and help the grid
In February, cumulative sales of EVs in California reached one million, accounting for about 6% of cars and light trucks. The state has targeted five million EVs on the road by 2030. When the penetration hits 30% to 40% of cars on the road, the grid will experience significant stress without major investments and changes in charging habits, says Rajagopal. Building that infrastructure requires significant lead time and cannot be done overnight.
“We considered the entire Western US region, because California depends heavily on electricity imports from the other Western states. EV charging plus all other electricity uses have consequences for the whole Western region given the interconnected nature of our electric grid,” says Siobhan Powell, a PhD in mechanical engineering and lead author of both the March study and the new one.
“We were able to show that with less home charging and more daytime charging, the Western US would need less generating capacity and storage, and it would not waste as much solar and wind power,” she says.
“And it’s not just California and Western states. All states may need to rethink electricity pricing structures as their EV charging needs increase and their grid changes,” adds Powell, who recently took a postdoctoral research position at ETH Zurich.
Once 50% of cars on the road are powered by electricity in the Western US—of which about half the population lives in California—more than 5.4 gigawatts of energy storage would be needed if charging habits follow their current course. That’s the capacity equivalent of five large nuclear power reactors. A big shift to charging at work instead of home would reduce the storage needed for EVs to 4.2 gigawatts.
Current time-of-use rates encourage consumers to switch electricity use to nighttime whenever possible, like running the dishwasher and charging EVs. This rate structure reflects the time before significant solar and wind power supplies when demand threatened to exceed supply during the day, especially late afternoons in the summer.
Today, California has excess electricity during late mornings and early afternoons, thanks mainly to its solar capacity. If most EVs were to charge during these times, then the cheap power would be used instead of wasted.
Alternatively, if most EVs continue to charge at night, then the state will need to build more generators—likely powered by natural gas—or expensive energy storage on a large scale. Electricity going first to a huge battery and then to an EV battery loses power from the extra stop.
Decarbonizing the transportation sector
At the local level, if a third of homes in a neighborhood have EVs and most of the owners continue to set charging to start at 11PM or whenever electricity rates drop, the local grid could become unstable.
“The findings from this paper have two profound implications: the first is that the price signals are not aligned with what would be best for the grid—and for ratepayers. The second is that it calls for considering investments in a charging infrastructure for where people work,” says Ines Azevedo, associate professor of energy science and engineering in the Stanford Doerr School of Sustainability and a co-senior author of the new paper.
“We need to move quickly toward decarbonizing the transportation sector, which accounts for the bulk of emissions in California,” Azevedo says. “This work provides insight on how to get there. Let’s ensure that we pursue policies and investment strategies that allow us to do so in a way that is sustainable.”
Another issue with electricity pricing design is charging commercial and industrial customers big fees based on their peak electricity use. This can disincentivize employers from installing chargers, especially once half or more of their employees have EVs.
The research team compared several scenarios of charging infrastructure availability, along with several different residential time-of-use rates and commercial demand charges. Some rate changes made the situation at the grid level worse, while others improved it. Nevertheless, a scenario of having charging infrastructure that encourages more daytime charging and less home charging provided the biggest benefits, the researchers found.
Rajagopal and Azevedo are also co-directors of the Bits & Watts Initiative at Stanford’s Precourt Institute for Energy. Gustavo Cezar, PhD student and a staff engineer at Stanford’s SLAC National Accelerator Laboratory; and Liang Min, managing director of the Bits & Watts Initiative are coauthors of the new study.
The California Energy Commission, the National Science Foundation, and the Bits & Watts Initiative, with support from Volkswagen, funded the work.
Source: Stanford University
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