Traditional solar panels are the most commonly used type of solar technology today. They are typically made from silicon-based cells that convert sunlight directly into electricity. These systems are well-established, dependable, and most often installed on rooftops to harness maximum exposure to the sun. However, their performance tends to drop significantly in conditions with limited sunlight, such as on cloudy days, during early mornings or late afternoons, or when they rely on reflected rather than direct sunlight.
On the other hand, AuREUS solar panels represent a newer, more innovative approach to solar energy generation. They are designed using advanced materials derived from recycled agricultural waste, which allows them to capture ultraviolet (UV) light effectively. This means they can produce electricity even in less-than-ideal lighting conditions, such as indoors or on overcast days. Additionally, their design allows for greater flexibility in installation, making it possible to integrate them into windows, walls, or other non-traditional surfaces. As a result, AuREUS panels provide a more versatile and environmentally friendly alternative to conventional solar technology, combining sustainability with expanded usability.
Difference Between Traditional Solar Panels And AuREUS Solar Panels :
Traditional Solar Panels
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Energy Source: Uses visible sunlight (direct or strong indirect light).
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Performance: Works best in sunny conditions; efficiency drops a lot on cloudy days or at night.
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Application: Mainly installed on rooftops.
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Production: Made using traditional silicon-based manufacturing.
AuREUS Solar Panels (Aurora Renewable Energy & UV Sequestration)
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Energy Source: Uses ultraviolet (UV) light, which can pass through clouds and reflect off surfaces.
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Performance: Can work in low-light or cloudy conditions, even at night; can generate power up to 50% of the time, compared to 15–22% for traditional panels.
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Application: Very versatile; can be built into windows, building facades, clothing, or vehicles, turning entire structures into energy generators.
- Production: Made with luminescent particles from recycled fruit and vegetable waste, helping farmers and reducing food waste.
