Hybrid Renewable Energy Systems Using Anastomosis Techniques

This inventive concept leverages the core technology of partial eversion anastomosis juncture formation and suturing to connect and integrate solar panels and wind turbines, enabling efficient energy transfer and hybrid renewable energy generation.

The original patent addressed the need for improved anastomosis techniques in surgical procedures. However, the limitations of this technology were confined to medical applications. This inventive concept breaks free from those constraints by applying the core technology to the renewable energy sector, solving the problem of inefficient energy transfer between solar panels and wind turbines.

The hybrid renewable energy system comprises a passage juncture formation mechanism, which joins an opening of a solar panel to an opening of a wind turbine using a non-invasive anastomosis procedure. The system utilizes guide sections positioned around the periphery of the passage juncture, each defining a partial helical channel for a filament to travel through. A helical needle is used to suture the passages together, enabling efficient energy transfer between the solar panel and wind turbine. The system can be integrated into a network of interconnected solar panels and wind turbines, creating a sustainable energy infrastructure.

The novelty of this inventive concept lies in the application of anastomosis techniques to the renewable energy sector, specifically in connecting solar panels and wind turbines. The inventive step is the recognition of the potential for anastomosis to enable efficient energy transfer between these devices, and the development of a system that achieves this integration.

Alternative embodiments may include the use of different types of renewable energy sources, such as hydroelectric or geothermal power. Variations of the system could also include the integration of energy storage devices or power conditioning systems to optimize energy output.

The hybrid renewable energy system has significant commercial potential in the renewable energy sector, particularly in the development of sustainable energy infrastructure. The system could be marketed to companies and governments seeking to integrate renewable energy sources into their power grids, providing a competitive advantage in terms of energy efficiency and sustainability.