Reinventing the American Road Trip: What the Inflation Reduction Act Means for Electric Vehicle Infrastructure

The Inflation Reduction Act of 2022 (“IRA”) signifies a turning point in domestic efforts to tackle climate change. Within the multibillion-dollar package are robust investments in climate mitigation initiatives, such as production tax credits, investment tax credits for battery and solar cell manufacturers, tax credits for new and used electric vehicles (“EV”)1, automaker facility transition grants, and additional financing for the construction of new electric vehicle manufacturing facilities.2 One thing is abundantly clear, the IRA’s focus on stimulating domestic production of electric vehicles means that the marketplace for electric vehicles will see a dramatic change. The Biden Administration has set an ambitious target of 50% of EV sale shares in the U.S. by 2030. However, if electric vehicles are going to achieve mass market adoption, a central question remains — where is the infrastructure to support them?

Addressing gaps in EV Supply and EV Infrastructure

As it stands, the shortage of charging infrastructure is a substantial barrier in the push for mass consumer adoption of EVs.3 Experts estimate that in order to meet the Biden Administration’s EV sale target by 2030, America would require 1.2 million public EV chargers and 28 million private EV chargers by that year.4 Department of Energy data shows that approximately 50,000 EV public charging sites are currently operational in the United States.5 In comparison, gasoline fueling stations total more than 145,000.6 However, federal legislation such as the Bipartisan Infrastructure Law (“BIL”) passed earlier this year signifies a clear commitment to remedying this disparity. The BIL establishes a National Electric Vehicle Infrastructure Formula Program (“NEVI”) to provide funding to States and private entities to deploy EV-charging infrastructure and to establish an interconnected network to facilitate “data collection, access and reliability.”7 The Federal Highway Administration, the federal agency charged with implementing NEVI, proposed minimum standards and requirements that states must meet to spend NEVI funds:

  • Installation, operation and maintenance by qualified technicians of EV infrastructure

  • Interoperability of EV charging infrastructure

  • Network connectivity of EV charging infrastructure

  • Data collection pertaining to pricing, real-time availability and accessibility8

The goal of the proposed rule is to secure EV charging infrastructure that works seamlessly for industrial, commercial and consumer drivers. Combining the historic investments in clean energy and climate infrastructure in the BIL and IRA, the federal government has jumpstarted what will be a fundamental shift in how consumers use transportation. Earlier this week, the Biden Administration announced more than two-thirds of EV Infrastructure Deployment Plans from States, the District of Columbia and Puerto Rico have been approved ahead of schedule under NEVI.9 With this early approval, these states can now unlock more than $900 million in NEVI funding from FY22 and FY23 to help build EV chargers across highways throughout the country.10

Section 13404’s Alternative Fuel Refueling Property Credit

Building up the U.S. capacity to build EVs, and then ensuring people can use said vehicles more easily by shoring up EV infrastructure is a crucial facet of the Inflation Reduction Act. Section 13404 of the IRA provides an Alternative Fuel Refueling Property Credit that targets the accelerated installation of EV charging infrastructure and assets.11 Section 13404 extends existing alternative fuel vehicle refueling property credit through 2032, and significantly restructures the credit by allowing taxpayers to claim a base credit of 6% for expenses up to $100,000 (for each piece refueling property located at a given facility) so long as the property is placed in service before Jan. 1, 2033.12 However, the alternative fuel property must be manufactured for use on public streets, roads and highways, but only if they are (1) intended for general public use, or (2) intended for exclusive use by government or commercial vehicles and (3) must be located in a qualifying census tract (i.e., low-income communities or non-urban areas).13 From a job creation standpoint, the IRA also provides an alternative bonus credit for taxpayers that meet certain wage requirements during the construction phase.14

The Future of EV Infrastructure

EV stations in city streets, parking garages and gas stations will become a prominent part of the nation’s infrastructure as it moves towards a green future. The effort will require coordination among municipal, state and federal policymakers. Even more, electric utilities must ensure that local infrastructure can support the additional strain on the grid. Utilities also have a direct interest in a cleaner, efficient, and less overburdened grid. Federal tax incentives, like the IRA, and subsides from states and local ordinances are integral to the implementation and construction of these networks. The private sector has already taken steps to do its part. In a recent study conducted by consulting company AlixPartners, as of June 2022, automakers and suppliers expect to invest at least $526 billion to fund the transition from gasoline powered vehicles to EVs through 2026.15 This is double the five-year EV investment forecast of $234 billion from 2020-2024.16 Even more, according to Bloomberg, not including deals that have disclosed financials, more than $4.8 billion has already been invested in the EV charging industry this year in the form of debt financing and acquisitions.17 Driven by fast growth and robust availability of government funds, financiers and large companies seeking to acquire EV charging companies, sense immense opportunity.18


FOOTNOTES

1“Electric Vehicle” is used interchangeably with the acronym “EV” throughout this article.

Isaacs-Thomas, I. (2022, August 11). What the Inflation Reduction act does for green energy. PBS. https://www.pbs.org/newshour/science/what-the-inflation-reduction-act-do…

3 Consumer Reports (2022, April). Breakthrough Energy: A Nationally Representative Multi-Mode Survey. https://article.images.consumerreports.org/prod/content/dam/surveys/Cons…

4 Kampshoff, P., Kumar, A., Peloquin, S., & Sahdev, S. (2022, August 31). Building the electric-vehicle charging infrastructure America needs. McKinsey & Company. https://www.mckinsey.com/industries/public-and-social-sector/our-insight…

5 U.S Department of Energy. (2022). Alternative Fueling Station Locator. Alternative Fuels Data Center: Alternative Fueling Station Locator. https://afdc.energy.gov/stations/#/find/nearest?fuel=ELEC&ev_levels=all&…

6 American Petroleum Institute. (n.d.). Service station FAQs. Energy API. https://www.api.org/oil-and-natural-gas/consumer-information/consumer-re…

7 U.S. Department of Transportation/Federal Highway Administration. (n.d.). Bipartisan Infrastructure Law – National Electric Vehicle Infrastructure (NEVI) formula program fact sheet: Federal Highway Administration. U.S. Department of Transportation/Federal Highway Administration. https://www.fhwa.dot.gov/bipartisan-infrastructure-law/nevi_formula_prog…

8 The Office of the Federal Register of the National Archives and Records Administration and the U.S. Government Publishing Office. (2022, June 22). National Electric Vehicle Infrastructure Formula Program. Federal Register. https://www.federalregister.gov/documents/2022/06/22/2022-12704/national…

United States Department of Transportation. (2022, September 14). Biden-Harris Administration announces approval of First 35 state plans to build out EV charging infrastructure across 53,000 miles of Highways. United States Department of Transportation. https://highways.dot.gov/newsroom/biden-harris-administration-announces-…

10 See Id.

11 As a note, “refueling property” is property used for the storage or dispensing of clean-burning fuel or electricity into the vehicle fuel tank or battery.  Clean-burning fuels include CNG, LNG, electricity, and hydrogen.

12 Inflation Reduction Act of 2022, H.R. 5376, 117th Cong. § 13404 (2022); See also Wells Hall III, C., Holloway, M. D., Wagner, T., & Baldwin, E. (2022, August 10). Nelson Mullins tax report–Senate passes Inflation Reduction Act. Nelson Mullins Riley & Scarborough LLP. https://www.nelsonmullins.com/idea_exchange/alerts/additional_nelson_mul…

13  Id.

14  Id.

15 AlixPartners, LLP. (2022, June 22). 2022 Alixpartners global automotive outlook. AlixPartners. https://www.alixpartners.com/media-center/press-releases/2022-alixpartne… See also Lienert, P. (2022, June 22). Electric vehicles could take 33% of global sales by 2028. Reuters. https://www.reuters.com/business/autos-transportation/electric-vehicles-…

16 Id.

17 Fisher, R. (2022, August 16). Electric car-charging investment soars driven by EV Growth, government funds. Bloomberg. https://www.bloomberg.com/news/articles/2022-08-16/car-charging-investme…

18 Id.

Copyright ©2022 Nelson Mullins Riley & Scarborough LLP

EV Buses: Arriving Now and Here to Stay

In the words of Miss Frizzle, “Okay bus—do your stuff!”1 A favorable regulatory environment, direct subsidy, private investment, and customer demand are driving an acceleration in electric vehicle (EV) bus adoption and the lane of busiest traffic is filling with school buses. The United States has over 480,000 school buses, but currently, less than one percent are EVs. Industry watchers expect that EV buses will eventually become the leading mode for student transportation. School districts and municipalities are embracing EV buses because they are perceived as cleaner, requiring less maintenance, and predicted to operate more reliably than current fossil fuel consuming alternatives. EV bus technology has improved in recent years, with today’s models performing better in cold weather than their predecessors, with increased ranges on a single charge, and requiring very little special training for drivers.2 Moreover, EV buses can serve as components in micro-grid developments (more on that in a future post).

The Investment Incline

Even if the expected operational advantages of EV buses deliver, the upfront cost to purchase vehicles or to retrofit existing fleets remains an obstacle to expansion.  New EV buses price out significantly more than traditional diesel buses and also require accompanying new infrastructure, such as charging stations.  Retrofitting drive systems in existing buses comparatively reduces some of that cost, but also requires significant investment.3

To detour around these financial obstacles, federal, state, and local governments have made funding available to encourage the transition to EV buses.4 In addition to such policy-based subsidies, private investment from both financial and strategic quarters has increased.  Market participants who take advantage of such funding earlier than their competitors have a forward seat to position themselves as leaders.

You kids pipe down back there, I’ve got my eyes on a pile of cash up ahead!

Government funding incentives for electrification are available for new EV buses and for repowering existing vehicles.5 Notably, the Infrastructure Investment and Jobs Act committed $5 billion over five years to replace existing diesel buses with EV buses. Additionally, the Diesel Emissions Reduction Act provided $18.7 million in rebates for fiscal year 2021 through an ongoing program.

In 2021, New York City announced its commitment to transition school buses to electric by 2035.  Toward that goal, the New York Truck Voucher Incentive Program provides vouchers to eligible fleets towards electric conversions and covers up to 80% of those associated costs.6  California’s School Bus Replacement Program had already set aside over $94 million, available to districts, counties, and joint power authorities, to support replacing diesel buses with EVs, and the state’s proposed budget for 2022-23 includes a $1.5 billion grant program to support purchase of EV buses and charging stations.

While substantial growth in EV bus sales will continue in the years ahead, it will be important to keep an eye out for renewal, increase or sunset of these significant subsidies.

Market Players and Market Trends, OEMs, and Retrofitters

The U.S is a leader in EV school bus production:  two of the largest manufacturers, Blue Bird and Thomas Built (part of Daimler Truck North America), are located domestically, and Lion Electric (based in Canada) expects to begin delivering vehicles from a large facility in northern Illinois during the second half of 2022.  GM has teamed up with Lighting eMotors on a medium duty truck platform project that includes models prominent in many fleets, and Ford’s Super Duty lines of vehicles (which provide the platform for numerous vans and shuttle vehicles) pop up in its promotion of a broader electric future. Navistar’s IC Bus now features an electric version of its flagship CE series.

Additionally, companies are looking to a turn-key approach to deliver complete energy ecosystems, encompassing vehicles, charging infrastructure, financing, operations, maintenance, and energy optimization. In 2021, Highland Electric Transportation raised $253 million from Vision Ridge Partners, Fontinalis Partners (co-founded by Bill Ford) and existing investors to help accelerate its growth, premised on a turn-key fleet approach.7

Retrofitting is also on the move.  SEA Electric (SEA), a provider of electric commercial vehicles, recently partnered with Midwest Transit Equipment (MTE) to convert 10,000 existing school buses to EVs over the next five years.8 MTE will provide the frame for the school uses and SEA will provide its SEA-drive propulsion system to convert the buses to EV.9 In a major local project, Logan Bus Company announced its collaboration with AMPLY Power and Unique Electric Solutions (UES) to deploy New York City’s first Type-C (conventional) school bus.10

Industry followers should expect further collaborations, because simplifying the route to adopting an EV fleet makes it more likely EV products will reach customers.

Opportunities Going Forward

Over the long haul, EV buses should do well. Scaling up investments and competition on the production side should facilitate making fleet modernization more affordable for school districts while supporting profit margins for manufacturers. EVs aren’t leaving town, so manufacturers, fleet operators, school districts and municipalities will either get on board or risk being left at the curb.


 

1https://shop.scholastic.com/parent-ecommerce/series-and-characters/magic-school-bus.html

2https://www.busboss.com/blog/having-an-electric-school-bus-fleet-is-easier-than-many-people-think

3https://thehill.com/opinion/energy-environment/570326-electric-school-bus-investments-could-drive-us-vehicle

4https://info.burnsmcd.com/white-paper/electrifying-the-nations-mass-transit-bus-fleets

5https://stnonline.com/partner-updates/electric-repower-the-cheaper-faster-and-easier-path-to-electric-buses/

6https://www1.nyc.gov/office-of-the-mayor/news/296-21/recovery-all-us-mayor-de-blasio-commits-100-electric-school-bus-fleet-2035

7https://www.bloomberg.com/press-releases/2021-02-16/highland-electric-transportation-raises-253-million-from-vision-ridge-partners-fontinalis-partners-and-existing-investors

8https://www.electrive.com/2021/12/07/sea-electric-to-convert-10k-us-school-buses/#:~:text=SEA%20Electric%20and%20Midwest%20Transit,become%20purely%20electric%20school%20buses.

9 Id.

10https://stnonline.com/news/new-york-city-deploys-first-type-c-electric-school-bus/

© 2022 Foley & Lardner LLP

Electrification of the Fleet is on the Horizon, Preparing Now is Key

While we often hear how EVs will revolutionize the lives of the average consumer, commercial fleet owners are starting to take note of the impact these new powertrain systems will have on their own business and operations. As OEMs find creative ways to increase aerodynamics, extend battery range, and increase charging speeds, the zero emission and lower long-term cost of EVs compared to ICE (internal combustion engine) vehicles makes a compelling argument for adoption, at least on paper. What really matters is how those factors play out as the rubber hits the road, which OEMs are starting to see play out in real time. Over the past few years, there has been an explosion of commercial fleet platforms from existing and new entrants in the commercial vehicle space. From light to heavy trucking to fleet platform automobiles, EV technology is looking to capture every corner of the commercial fleet sector. Coupled with a slow reduction in the number of ICE vehicles produced in future years, the market may start pushing fleet operations towards EVs, whether they like it or not.

According to the Department of Transportation, over eight million vehicles made up commercial fleets in the US in 2020, which includes a mix of trucks and automobiles used in commercial and government operations. Even more make up commercial vehicles on the road that are not considered part of a fleet. As consumer demand drives most traditional OEMs toward EV dominated fleets, commercial fleet owners and operators need to start to prepare now for the same shift in their vehicle suppliers, or risk playing catchup once the market does turn from ICE to EV. This isn’t to say that failure to be an early adopter will be the death-knell to commercial fleet businesses; it likely won’t be. What businesses with commercial fleets should consider is their own business needs and their timeline for their own fleet replacement as EV technology and infrastructure support continues to evolve. Establishing a process and plan for upgrading existing fleets, training personnel, upgrading infrastructure, and understanding available programs for conversion will be key.

The switch from an ICE to EV fleet isn’t as simple as flipping a switch or plugging in a car – EVs bring a new powertrain and new sources of information. EVs in their current state are expensive, new vehicle supply is constantly in question, current operators are unaware of the nuances involved with operating an EV, and the infrastructure necessary to support a commercial fleet of EVs isn’t universally robust. For the average fleet operator, there also is a need to focus on route optimization, installing and maintaining new hardware capable to supporting charging on-site, revamping their maintenance and care procedures, and working with their local energy providers to understand how power demands in their local market may impact their own energy costs and needs. Additionally, although data analytics has improved existing fleet operations over the past few years, expect to see more nuanced data availability to the benefit of fleet operators.  As commercial and consumer EVs come out with ever more connectivity to the web and each other, coupled with the ability for “smart cities” to increase data available to drivers and vehicles, expect future fleet operators to get even more granular and predictive understanding of traffic patterns to optimize commercial routes. Managing these dynamics and capitalizing on new sources of information will better enable operators to adapt to the changing landscape. The ability to adapt to this new frontier will be a key trait for successful fleet operations in the Auto-2.0 operated environment.

© 2022 Foley & Lardner LLP