Novel approaches to harvesting solar energy are evolving as the demand for sustainable and clean energy sources develops. Floating solar, an exceptional and essential part of the solar industry, is rapidly expanding, with many large-scale endeavors in development. The main feature of floating solar is that it doesn’t require land as it can be placed on a body of water.
With their specialized technology enabling them to float on water, these solar plants provide an innovative approach to the problem of land shortage in solar installations.
Floating Solar Power, along with Other Energy Sources
It is possible to combine floating solar panels with other clean technologies, including hydropower. This aids in supplying a constant power source amid frequently erratic weather conditions.
When solar energy is not accessible, hydropower can be used. Solar energy can be used throughout the day. In the near future, such an imaginative blend and amalgamation of technology may perform wonders, realizing the dream of switching to 100% renewable energy.
Generation of Green Hydrogen
Green hydrogen production is finding an excellent, affordable electrical source of solar power. Solar power, via floating solar energy structures, can produce hydrogen through the electrolytic conversion of water, resulting in the generation of green hydrogen.
An inventive floating solar power plant for island and coastal locations has been developed by the Irish business SolarMarine Energy to produce green hydrogen. Due to growing efforts to facilitate the shift to a blue economy that is climate-neutral and rising investments to increase maritime commerce, the floating solar sector will reach a market value of USD 1 billion by 2023.
Floating Solar Structures
A few of the structures that are being used for floating solar power generation are:
- Pure floats: Pure-float arrangements use specifically engineered buoyant structures to support solar panels directly. This reduces the number of metal components used and makes assembly and installation simpler. The benefits of a pure float platform include scalable systems with little to no material parts, which lowers the chance of corrosion.
- Pontoons and metal frames: Solar panels are mounted on pontoons, which are used primarily for buoyancy, using metal structures, such as frames or trusses. Since the metal frames provide buoyancy, there is no need for specially-made floats. The benefit of using metal-framed pontoons is their ease of construction and local material sources.
- Membranes and mats: Rubber mats are usually utilized to completely enclose the water’s surface in this kind of platform. This rubber matting supports the installation of solar panels. Small artificial waterbodies (less than 0.2 km), which are mostly used for water storage and lack aquatic life, are best suited for this. This kind of platform has the benefit of being simple to build and maintain, adaptable to variations in water level, and simple in design. It is especially appropriate for dry and desert regions, where water is scarce.
Conclusion
The development of floating solar technology is extremely promising for the global search for sustainable energy sources. Innovations in materials, construction, and maintenance techniques are making floating solar installations increasingly dependable and effective.
Water bodies around the world will likely become hubs for the production of renewable energy, enabling global sustainability as the market for floating solar panels continues to grow.
