Andrew TangContributor – Andrew Tang is vice president of energy storage and optimization at Wärtsilä Energy, which provides solutions for renewable energy integration and EV charging infrastructure development.
As electric vehicles (EVs) become the new standard, charging infrastructure will become a commonplace detail blending into the landscape, available in a host of places from a range of providers: privately run charging stations, the office parking lot, home garages and government-provided locations to fill in the gaps. We need a new energy blueprint for the United States in order to maintain a stable grid to support this national move to EV charging.
The Biden administration announced 500,000 charging stations to be installed nationally and additional energy storage to facilitate the shift to EVs. Integrating all of this new infrastructure and transitioning requires balancing the traffic on the grid and managing increased energy demand that stretches beyond power lines and storage itself.
The majority of EV infrastructure pulls its power from the grid, which will add significant demand when it reaches scale. In an ideal situation, EV charging stations will have their own renewable power generation co-located with storage, but new programs and solutions are needed in order to make it available everywhere. A range of scenarios for how renewables can be used to power EV charging have been piloted in the U.S. in recent years. Eventually, EVs will likely even provide power to the grid.
These technological advances will happen as we progress through the energy transition; regardless, EV infrastructure will heavily rely on the U.S. grid. That makes coordination across a range of stakeholders and behavior change among the general public essential for keeping the grid stable while meeting energy demand.
The White House’s fact sheet for EV charging infrastructure points to a technical blueprint that the Department of Energy and the Electric Power Research Institute will be working on together. It is critical that utilities, energy management and storage stakeholders, and the general public be included in planning — here’s why.
Charging infrastructure is currently fragmented in the U.S. Much of it is privatized and there are complaints that unless you drive a Tesla, it is hard to find charging while on the road. Some EV owners have even returned to driving gas-powered vehicles. There’s reason to be hopeful that this will rapidly change.
ChargePoint and EVgo are two companies that will likely become household names as their EV networks expand. A coalition made up of some of the largest U.S. utilities — including American Electric Power, Dominion Energy, Duke Energy, Entergy, Southern Company and the Tennessee Valley Authority — called the Electric Highway Coalition, announced plans for a regional network of charging stations spanning their utility territories.
Networks that swap out private gas stations for EV charging is one piece of the puzzle. We also need to ensure that everyone has affordable access and that charging times are staggered — this is one of the core concerns on every stakeholder’s mind. Having charging available in a range of places spreads out demand, helping keep power available and the grid balanced.
Varying consumer needs including location and housing, work schedules and economic situations require considerations and new solutions that make EVs and charging accessible to everyone. What works in the suburbs won’t suit rural or urban areas, and just imagine someone who works the night shift in a dense urban area.
Biden’s plan includes, “$4 million to encourage strong partnerships and new programs to increase workplace charging regionally or nationally, which will help increase the feasibility of [plug-in electric vehicle] ownership for consumers in underserved communities.” Partnerships and creative solutions will equally be needed.
“Fifty percent of the reductions we have to make to get to net-zero by 2050 or 2045 are going to come from technologies that we don’t yet have,” John Kerry said recently, causing a stir. He later clarified that we also have technologies now that we need to put to work, which received less air time. In reality, we are just getting started in utilizing existing renewable and energy transition technologies; we have yet to realize their full potential.
Currently, utility-scale and distributed energy storage are used for their most simplistic capabilities, that is, jumping in when energy demand reaches its peak and helping keep the grid stable through services referred to as balancing and frequency regulation. But as renewable energy penetration increases and loads such as EVs are electrified, peak demand will be exacerbated.
The role that storage plays for EV charging stations seems well understood. On-site storage is used daily to provide power for charging cars at any given time. Utility-scale storage has the same capabilities and can be used to store and then supply renewable power to the grid in large quantities every day to help balance the demand of EVs.
A stable power system for EVs combines utilities and utility-scale storage with a network of subsystems where energy storage is co-located with EV charging. All of the systems are coordinated and synchronized to gather and dispatch energy at different times of the day based on all the factors that affect grid stability and the availability of renewable power. That synchronization is handled by intelligent energy management software that relies on sophisticated algorithms to forecast and respond to changes within fractions of a second.
This model also makes it possible to manage the cost of electricity and EV demand on the grid. Those subsystems could be municipal-owned locations in lower-income areas. Such a subsystem would collect power in its storage asset and set the price locally on its own terms. These systems could incentivize residents to power up there at certain times of the day in order to make charging more affordable by providing an alternative to the real-time cost of electricity during peak demand when using a home outlet, for example.
The greatest challenge for utilities will be how to manage EV loads and motivate people to stagger charging their vehicles, rather than everyone waiting until they are home in the evening during off-peak renewable generation periods. If everyone plugged in at the same time, we’d end up cooking dinner in the dark.
While there’s been talk of incentivizing the public to charge at different times and spread out demand, motivators vary among demographics. With the ability to charge at home and skip a trip to the “gas station” — or “power station,” as it may be referred to in the future — many people will choose convenience over cost.
The way we currently operate, individual energy usage seems like an independent, isolated event to consumers and households. EVs will require everyone — from utilities and private charging stations to consumers — to be more aware of demand on the grid and act more as communities sharing energy.
Thus, a diverse charging network alone won’t solve the issue of overtaxing the grid. A combination of a new blueprint for managing energy on the grid plus behaviour change is needed.
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