Solar modules installed on electric vehicles (EVs) can help increase the driving range of EVs by directly charging the battery while parked or during journeys. Solar panels installed on the roof, bonnet, and other areas of EVs capture sunlight and convert it into direct current (DC) electricity that can be stored in the vehicle’s battery. Some key benefits of integrating solar modules into EV Solar Modules include reduced range anxiety, lower fuel costs, and decreased carbon emissions.
Types of Solar Modules Used in EVs
There are a few different types of solar module technologies that are being utilized in electric vehicles:
Monocrystalline silicon solar panels – Monocrystalline silicon cells are the most efficient type of solar technology currently available. They are typically around 15-20% efficient at converting sunlight into electricity. Several electric vehicle prototypes and concepts cars have experimented with monocrystalline silicon panels integrated into the roof or other body parts. The flexibility and customizable sizes make them well-suited for vehicle integration.
Polycrystalline silicon solar panels – Polycrystalline silicon panels are slightly less efficient than monocrystalline at around 14-17% conversion efficiency but are also less expensive to manufacture. Some small production EV Solar Modules like the Lightyear One utilize polycrystalline panels across much of the vehicle body. The lower costs make polycrystalline a good option for helping drive down the costs of EVs with integrated solar.
Perovskite solar cells – Perovskite solar technology is a very promising emerging photovoltaic material. In laboratory testing, perovskite cells have achieved conversion efficiencies approaching the theoretical maximum. They also have advantages like lightweight flexible designs well-suited for vehicles. However, perovskite panels face durability challenges that need further improvement before being viable in real-world electric vehicles. Several automakers are actively researching perovskite-based solar integrated designs.
How Much Range Can Solar Modules Add?
The amount of additional range solar panels can provide to an EV varies based on the size and type of the modules as well as environmental factors like weather and sunlight availability. Some estimates of potential range boosts include:
A mid-size EV equipped with a conventional-sized solar roof could see a range increase of over 1,100 miles per year based on average U.S. insolation.
With a 0.5kW solar array covering much of the car, the Lightyear One claims to be able to add up to 11 miles of range per day or over 4,000 miles per year in ideal conditions.
Toyota estimates the solar roof on the Concept-i small mobility EV prototype could generate enough electricity for around 1,200 miles of extra driving per year.
Viable Motors claims their modular solar skin panels can add up to 7,500 extra miles of emissions-free driving per year depending on the vehicle and solar configuration.
Studies modeling a Tesla Model 3 with a solar roof estimated it could achieve over 1,600 miles of free driving from solar energy on an annual basis.
Integrating EV Solar Modules into Vehicle Designs
For solar modules to provide sufficient range enhancement, they need to be properly integrated into the vehicle’s design from the start. Some innovative approaches automakers are taking include:
Solar roofs: Covering the entire roof surface with solar cells like on the Lightyear One can maximize collection potential but adds weight and costs. Pop-up solar roofs that only deploy the panels when parked may see more use.
Solar skins/panels: Flexible lightweight solar panels that can wrap around vehicle bodies offer design freedom compared to solid roofs. Viable Motors is a leader in this area.
Solar sunroofs/moonroofs: Combining a standard sunroof design with solar collection could boost range modestly without major design changes.
Solar-integrated panels: Hidden solar panels seamlessly integrated into other body parts like rear spoilers and hoods/bonnets can generating power more discreetly.
Smart integration will be important to balance benefits of additional solar capacity with impacts to costs, weight, and aerodynamic/cosmetic concerns. Partnering solar technology experts early in development helps ensure the best design approaches. The most forward-thinking EV makers are embracing solar integration to differentiate future models.
Outlook for Widespread Adoption
As solar modules improve in efficiency and new vehicle designs emerge optimized for solar energy collection, the outlook for mainstream adoption of EV solar integration is quite promising. Several factors are likely to influence future utilization:
Falling solar panel costs will make them increasingly affordable to incorporate into production EVs within this decade. Perovskite and other emerging photovoltaic materials may drive down prices substantially.
As driving ranges continue their steady increases, the meaningful boost solar provides will become less critical but still offer benefits.
Regulatory incentives and goals to expand renewable energy and EV Solar Modules in transportation will support continued innovation and market adoption.
Consumer interest is high for the plug-free charging capability solar affords, reducing range and fueling anxieties. It improves the value proposition of electric mobility.
Automakers understand future competitive advantages lie in superior battery and charging technologies. Solar-enabled EVs give brands an edge in those developing areas critical for mass EV adoption.
With each successive model generation able to harvest more free solar miles owing to technology advancements and better designs, even a few miles per day of free driving will appeal to many buyers.
*Note:
1. Source: Coherent Market Insights, Public sources, Desk research.
2. We have leveraged AI tools to mine information and compile it.
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