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Solar roadway panels with embedded charging technology are being tested to power EVs while driving. The system uses inductive charging beneath road surfaces, potentially extending range and reducing charging stops. Current pilots face durability and cost challenges, but show promise for future highway implementation. solar-roadway-ev-charging-driving

Revolutionary Solar Roadway Project Enters Testing Phase

A groundbreaking solar roadway pilot project is testing embedded panels that can charge electric vehicles while they drive. The innovative technology, developed by Solar Roadways Incorporated, features hexagonal road panels with solar cells beneath durable glass surfaces. These panels generate electricity while providing driving surfaces.

How the Integrated Charging System Works

The system uses inductive charging technology embedded beneath the road surface. As electric vehicles drive over specially equipped road sections, copper coils in the panels transfer energy to receivers in the vehicles. This continuous charging capability could significantly extend EV range and reduce charging stops during long trips.

Current testing focuses on optimizing power transfer efficiency and ensuring safety under various weather conditions. Early results show promise, with engineers achieving up to 85% energy transfer efficiency at speeds under 60 km/h. The technology faces challenges including durability under heavy traffic and cost-effectiveness compared to traditional charging infrastructure.

Potential Benefits and Challenges

Proponents highlight several advantages:

Reduced reliance on stationary charging stations
Continuous power supply during highway driving
Utilization of existing road infrastructure for energy generation
Potential integration with smart grid technology

However, critics point to significant hurdles:

High installation costs (estimated at $1 million per lane mile)
Durability concerns under heavy truck traffic
Maintenance challenges for embedded electronics
Efficiency limitations in low-light conditions

Current Pilot Projects and Future Outlook

The most advanced testing is occurring in Sandpoint, Idaho, where a 150-square-foot pedestrian walkway has been operational since 2016. A newer pilot in Baltimore, Maryland installed 36 SR4 model panels at the Inner Harbor in 2019. These installations generate modest electricity (averaging 0.25 kWh daily during peak production) while gathering performance data.

Transportation departments in California and France have expressed interest in the technology, with discussions underway for highway test sections. Industry analysts predict that if durability and cost challenges can be addressed, commercial implementation could begin on limited-access highways by 2030.

The technology represents a potential paradigm shift in EV infrastructure, moving from destination charging to continuous power supply. As EV adoption accelerates globally, solutions like solar roadways could help address range anxiety and grid capacity concerns.