The Benefits of Integrating Electric Vehicles into Electricity Distribution Systems

Potential Impacts to the Distribution System with High EV Adoption
Electric utilities have traditionally sized distribution feeders based on historical load levels and forecasts for future load. Many distribution feeders are not equipped to host additional loads that might be introduced from uncoordinated EV charging (charging whenever or wherever) with high EV adoption.

Some initial studies have shown that uncoordinated charging could significantly change load size and shape and introduce higher peaks. This presents Potential Impact No. 1: If the change in load is not considered in distribution planning, the result could be system overloads—when power drawn on a line exceeds the limits of its components. Overloads could cause distribution transformers and lines to overheat if they are not upgraded to handle increased loads. Overheating leads to other challenges.

Potential Impact No. 2 is feeder congestion, wherein distribution and transmission infrastructure is aging and generation and loads are not co-located. Upgrading infrastructure to accommodate added loads can be a costly and time-consuming process.

Potential Impact No. 3 is power quality with lots of uncoordinated charging. If charging loads are not aligned with distributed generation peaks, demand and generation could be mismatched and voltage problems could arise. Voltage dips or spikes equal lower power quality.

Widespread EVs Does Not Have to Mean Costly Upgrades or Strains on the Grid
We are finding that there are many solutions to mitigate the potential impacts of increased load from super high levels of EVs.

·  Infrastructure upgrades: Power quality and overloading problems can also be mitigated with careful charging infrastructure planning. Proper planning can minimize the costs of upgrades to extend EV-hosting capacities for both large charging stations and individual vehicle chargers. Placing charging stations on lines with higher capacities and co-locating distributed generation or storage with charging stations could avoid costly feeder upgrades (cha-ching!)—lowering retail rates for customers.

·  Control approaches: IEEE 1547 requires inverters from distributed generation to be able to do some minimum voltage regulation to allow better interconnection and interoperability between utility electric power systems and DERs. The standard has spurred a lot of progress in this space. The same could also be done on the load side with EVs. Many new proposed EV control schemes manage voltage and congestion impacts of vehicle charging (smart charge management). The control approaches use inverters at charging stations or the EVs themselves to coordinate EV charging, helping to control voltage and maintain frequency on the grid at the charging station location and in the wider area. Looking forward, these systems may even be able to provide reactive power support as a service.

·  Market solutions: Market structures could encourage EV drivers to charge at times and locations that work best for the grid, alleviating congestion, voltage, or other local distribution constraints. Market structures include time-of-use rates, real-time pricing, peak use demand charges, and more.

The Work Continues
Super high adoption of EVs presents many interesting questions that we will continue to study at NREL. For example, NREL’s Electric Vehicle Smart Charging at Scale effort is investigating various smart-charging strategies to optimize the benefits and reduce the risks associated with widespread EV adoption. There is also a lot of work being done at the laboratory to understand how to allow equitable access to EVs. Folks who rent or own townhouses or apartments do not have the same access to at-home charging. More charging stations in commercial spaces could encourage workplace charging, which also aligns nicely with solar generation profiles.

Nadia Panossian works at the Grid Planning and Analysis Center at the National Renewable Energy Laboratory (NREL). The article was originally posted to the NREL website.