Blue Solar, with its distinctive globe design, is constructed with our patented DS-technology -Dynamic Structure Technology.
Our standard solutions are designed for use in coastal areas and inland lakes. The solution uses lightweight, corrosion-resistant, environmentally friendly, and cost-effective materials with a long lifespan (50+ years).
The solution utilizes well-renowned standard equipment and systems, assembled in a unique and highly cost-saving method. This ensures efficient mass production of standard products that deliver on «time to market.“ –The technology design opens for use in offshore applications.
Blue Solar is designed with the use of a Buoyancy Control System that regulates and controls the position of the solar power plant on the water.
The solution is designed with functionality for the future offshore version, Blue Solar Offshore, which can submerge to safety during periods of extreme weather with high waves.
With our advanced buoyancy control system, Blue Solar stabilizes its structure in real time. By adjusting tilt, rotation, and mooring tension dynamically, it adapts to various environmental challenges, water depth variations and tide. This ensures exceptional durability, cost-efficiency, and an extended lifespan.
The Blue Solar Globe is expertly designed to provide secure and efficient storage for advanced battery solutions. With ample space and robust protection against harsh weather conditions such as rain, wind, snow, and ice, the globe ensures the longevity and reliability of your energy storage systems. This innovative feature empowers clean energy operations by safeguarding vital components while maximizing performance.
The Multi-Axis Exposure (MAE) technology is an innovative approach to solar energy collection. It is designed to efficiently capture sunlight, regardless of the sun’s angle. The MAE system is structured as a globe with 26 faces, each having a different tilt and azimuth. This unique design ensures that as the sun rises in the east and moves across the sky, the MAE technology maximizes solar energy production. The area of solar panels exposed to sunlight remains consistent throughout the day, providing stable energy from sunrise to sunset, and reducing the risk of production loss due to clouds and variations in weather conditions.
Additionally, the MAE technology is built to absorb more reflected light due to its vertical panels. This feature enhances its efficiency, making it a more effective solution compared to traditional solar panel setups.
In summary, the MAE technology offers a reliable and efficient method for sustainable energy production by maintaining consistent exposure to sunlight and efficiently capturing reflected light.
MAE-technology differs significantly from conventional horizontal solar panels in terms of production time and duration. While conventional floating photovoltaic (FPV) systems produce energy in a normal-curve with high output over a short interval, they are also at a higher risk of production loss in certain locations due to weather variations. Additionally, conventional FPV systems often incur higher costs due to the need for external equipment with higher load capacities to handle higher peak power.
The major difference becomes evident when comparing average energy prices. MAE-technology provides a more stable and consistent energy output throughout the day, reducing the risk of production loss and potentially lowering overall costs.
Energy prices are always in constant movement. If we look at the average energy prices in Europe, we can see that they are highest in the morning and evening, while the lowest prices occur around midday. Conventional floating photovoltaic (FPV) power plants produce most of their energy when prices are at their lowest. In contrast, MAE-technology offers a more profitable production curve that better suits market demands.
When comparing revenue differences, MAE-technology outperforms conventional FPV systems by 30%-40% if the same number of panels are used. Furthermore, if we consider the revenue potential of the same occupied area, the revenue increases by over 370%.
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