Will Mass Electric Vehicle Adoption Impact the Power Grid?

Will Mass Electric Vehicle Adoption Impact the Power Grid?
A Tesla car recharges its battery at a Supercharger in San Bruno, Calif., on March 10, 2022. (Justin Sullivan/Getty Images)

In January 2021, the Biden administration announced its plans to transition the United States to 100 percent “clean” electricity by 2035 and to have half of all vehicles sold be zero-emissions vehicles by 2030.

One hundred percent clean energy by 2035 is an ambitious goal, and adding a considerable amount of electric vehicles (EV) to the United State’s power grid is forecasted to increase electricity demands substantially.

For example, in 2021, EV sales reached 6.6 million, reports the U.S. Department of Energy’s (DOE) National Renewable Energy Laboratory (NREL). And the increase in just light-duty EVs added 1,700 gigawatt-hours in annual energy load to the U.S. grid, according to independent and non-profit energy research firm The Electric Power Research Institute (EPRI).

Pointedly, projections from the International Energy Agency (IEA) put EV sales at 23 million by 2030, meaning the grid will soon need to handle substantially more than 1,700 additional gigawatt-hours annually.

Utility companies have proposed billions in new infrastructure projects to meet the forecasted increase. And the DOE has asked a consortium of research labs like Pacific Northwest National Laboratory and NREL to contribute to an integrated systems analysis report on the impacts of EVs on the grid.

Solar panels are seen next to a Southern California Edison electricity station in Carson, Calif., on March 4, 2015. (Lucy Nicholson/Reuters)

These labs found that the grid can handle high-penetration EV scenarios by applying specific strategies.

“Electric vehicles (EVs) can meet U.S. personal transportation needs using domestic energy resources while at the same time offering carbon emissions benefits. However, wide scale light-duty EV adoption will necessitate assessment of and possibly modification to the U.S. electric power generation and distribution systems,” the Summary Report on EVs at Scale and the U.S. Electric Power System outlined (pdf).

Indeed, if EV sales reach the high-penetration scenario of 6.8 million annually, and travel 12,000 miles a year while requiring 3.8 MWh/Year of energy generation per EV, the total increased energy demand for EVs on the grid will equal 26 TWh, the report further revealed.

A separate report by Dr. Matteo Muratori, NREL’s Team Lead of Integrated Transportation and Energy Systems Analysis, found that high EV integration could result in a 1,424 TWh electricity consumption increase by 2050.

Preparing For a Big Load

To determine what strategies are required to facilitate this high EV adoption, The Epoch Times spoke with Dr. Andrew Meintz, NREL’s Project Lead for Electric Vehicle Grid Integration.

A woman holds a cable to charge a Renault Kangoo ZE electric utility vehicle at a Renault dealership in Cagnes-Sur-Mer, France, on Oct. 22, 2020. (Eric Gaillard/Reuters)

Meintz said that, generally speaking, greater EV use will lead to higher electricity demands, and the grid would need to be “built out” to accommodate the increase. He likened this to the early 1900s, when home air conditions required upgrades to the grid.

“ACs were a pretty big load, but we built additional distribution and transmission to handle it,” Meintz stated.

However, Meintz added that there are now ways to mitigate distribution and transmission upgrade requirements, and that is with smart charge management.

Specifically, Meintz said that Electric Vehicle Supply Equipment (EVSE)—Level 1, Level 2, and DC Fast Chargers that you plug your vehicle into—can be programmed to charge your car at specific times during the day. Similarly, the vehicle itself can be programmed to charge at off-peak hours.

How that works, Meintz said, is utility companies set Time of Use (TOU) charging rates, and those rates vary based on demand and electricity availability. For example, if you charge your EV when you get home from work when demand is high, or “on-peak,” you’d pay a higher rate. If you wait to charge your vehicle when demand is low, or “off-peak,” you’d pay a lower rate.

“The vehicle and charger are smart enough not to require user integration,” Meintz added. For clarity, he specified that users wouldn’t have to go to their garage and plug in their EV at a certain time. Instead, EV owners could plug in when they get home, and the EV would charge when electricity demand is low.

When asked how moving to green energy sources like wind and solar might impact EV charging, Meintz said it depends on location and availability. “Wind is really a nighttime resource, and solar is for during the day. Some locations might not have enough distribution, but it depends on the locations. EVs are a resource that can be programmed to charge when that resource is available.”

Uncoordinated Charging

When pressed about the grid’s ability to handle uncoordinated EV charging, Meintz circled back to smart charging.

However, Muratori’s report states, “Uncoordinated charging of EVs will lead to increased system peak load, possibly exceeding the maximum power that can be supported by distribution systems and generally increasing power system stress.”

Moreover, the non-profit Energy Systems Integrations Group (ESIG) reports that implementing Biden’s clean energy strategy “will require a doubling or tripling of the size and scale of the nation’s [energy] transmission system.”

It further added, “Decarbonizing the electricity system, and ultimately achieving net-zero emissions, will require action on a transformative scale,” which involves “massive nation-wide transmission expansion.”

Considering that the U.S. grid is divided into three major regions—including the Eastern, Western, and Texas Interconnection, as well as independent operators at the state and regional levels—moving to a nationwide transmission system would be transformative, indeed.

From The Epoch Times

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