ERC Explores Possibilities for Integrated Electric Vehicle Charging Infrastructure

Outcome/Accomplishment

The NSF-funded Engineering Research Center (ERC) Advancing Sustainability through Powered Infrastructure for Roadway Electrification (ASPIRE), headquartered at Utah State University, implemented a comprehensive study of the potential to seamlessly integrate charging facilities, power systems, and transportation infrastructure across the United States in anticipation of widespread electric vehicle transition.

Impact/Benefits

This research contributes to the development of an efficient and equitable electrified transportation system that will allow any and all vehicle users—from passenger vehicles to heavy-duty trucks—to access wireless and wired charging solutions that are seamlessly integrated into transportation systems and electric utilities throughout the United States.

Explanation/Background

The pioneering study launched by the NSF-funded Center evaluates charging systems for multiple classes of electric vehicles across the United States, assesses available transportation systems, and provides an environmental impact assessment of heavy-duty vehicle electrification.

Among the outcomes of the study was a determination that the market saturation rates for battery electric vehicles and plug-in electric vehicles are different according to location. The study also anticipated about $17.6 billion in health benefits from reduced pollution as a result of 100% heavy-duty vehicle electrification.

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Location

Logan, Utah

e-mail

Start Year

Energy and Sustainability

Energy and Sustainability Icon
Energy and Sustainability Icon

Energy, Sustainability, and Infrastructure

Lead Institution

Utah State University

Core Partners

Purdue University, University of Colorado, University of Texas at El Paso
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Outcome/Accomplishment

The NSF-funded Engineering Research Center (ERC) Advancing Sustainability through Powered Infrastructure for Roadway Electrification (ASPIRE), headquartered at Utah State University, implemented a comprehensive study of the potential to seamlessly integrate charging facilities, power systems, and transportation infrastructure across the United States in anticipation of widespread electric vehicle transition.

Location

Logan, Utah

e-mail

Start Year

Energy and Sustainability

Energy and Sustainability Icon
Energy and Sustainability Icon

Energy, Sustainability, and Infrastructure

Lead Institution

Utah State University

Core Partners

Purdue University, University of Colorado, University of Texas at El Paso

Impact/benefits

This research contributes to the development of an efficient and equitable electrified transportation system that will allow any and all vehicle users—from passenger vehicles to heavy-duty trucks—to access wireless and wired charging solutions that are seamlessly integrated into transportation systems and electric utilities throughout the United States.

Explanation/Background

The pioneering study launched by the NSF-funded Center evaluates charging systems for multiple classes of electric vehicles across the United States, assesses available transportation systems, and provides an environmental impact assessment of heavy-duty vehicle electrification.

Among the outcomes of the study was a determination that the market saturation rates for battery electric vehicles and plug-in electric vehicles are different according to location. The study also anticipated about $17.6 billion in health benefits from reduced pollution as a result of 100% heavy-duty vehicle electrification.