Butterfly Device on Floating Platform

• The Butterfly Device on a Floating Platform has been specifically designed to operate in seas with lower energy potential, where waves exhibit moderate but consistent heights. Its adaptability allows it to capture and convert wave energy within a range of 0.5 to 5 meters in height, making it an effective solution for a wide variety of marine environments.

  The system consists of a series of floaters strategically distributed along a central axis. As waves pass, the vertical motion of the floaters generates continuous rotation of the axis, which is mechanically transmitted to energy conversion systems located onshore.

  It stands out for its high versatility, as it can be adjusted according to wave characteristics by modifying the size of the floaters, the length of the arms, and the overall structural configuration. This enables precise optimization of energy performance, adapting to different maritime conditions and production needs.

  Thanks to its modular design, environmental friendliness, and mechanical efficiency, the floating Butterfly Device represents an innovative solution for renewable energy generation in coastal areas with moderate yet consistent resources.

Butterfly Device Attached to Breakwater

The Butterfly Device Attached to Breakwater has been developed for installation on the outer breakwaters of ports, leveraging existing infrastructure to generate renewable energy efficiently and sustainably.

Designed to capture wave energy from heights ranging between 0.5 and 5 meters, this system incorporates a set of floaters that, through their motion with the waves, pressurize water that can later be used for electricity generation or desalination processes.

One of its main advantages is its structural robustness and adaptability to port environments, allowing for a secure installation without the need for floating platforms. In addition, the device includes a storm protection system, ensuring durability and safe operation even under harsh marine conditions.

The breakwater-mounted Butterfly represents a cost-effective, scalable, and environmentally friendly solution for wave energy generation in port settings.

 

 

Current device

• The Current Device has been specifically designed to harness energy in environments with water currents, whether riverine or marine. Its configuration allows for the efficient, safe, and environmentally respectful use of low to medium flow velocities.

  This system is composed of spiral-arranged tubes that facilitate the progressive capture of the water’s kinetic energy and enable operation at low rotational speeds. Thanks to this feature, the device minimizes its impact on aquatic fauna, ensuring harmonious integration with the ecosystem.

  In addition, the design of the Current Device avoids the use of sharp edges or aggressive components, significantly reducing any risk to fish or other organisms present in the operational environment.

  With an operating range from 0.1 to 6 meters per second, the system offers great versatility and can be adapted to various flow conditions and locations, from river channels to coastal areas with moderate currents.

  Its robust, safe, and efficient design makes it an ideal solution for clean energy generation in locations where the primary resource is the continuous movement of water.

Rotary device

• The Rotary Device has been specially designed for installation in seas and oceans with high wave energy potential, where wave conditions allow for large-scale energy capture. Its structural robustness and adaptability make it ideal for areas with high and frequent waves.

  This system is capable of absorbing energy from waves up to 8 meters in height, positioning it as an effective solution for high-demand energy environments. Its design is based on a central steel shaft on which one or more spirals (helices) made of plastic tubing are mounted at a specific distance from the axis. This configuration allows the device to capture both the vertical and translational movement of the waves.

  The device can be built with one or multiple helices, allowing structural stability and power output to be adjusted according to environmental conditions and the energy objectives of the project. This modularity makes it a scalable and versatile solution, capable of adapting to different coastal profiles and generation needs.

Smart Pump

• The Smart Pump is a state-of-the-art hydraulic piston pump specifically designed to operate without the need for grease or external lubricants. It uses water as the pressurizing fluid, ensuring clean, safe, and fully environmentally friendly operation.

  This innovative system is capable of reaching pressures of up to 300 bar and is available in a wide range of power ratings, from 50 to 5000 kW, allowing it to be adapted to various application scales—from autonomous systems to large-scale installations.

  Its design allows operation within a rotational speed range of 1 to 200 revolutions per minute, making it an ideal solution to be driven directly by renewable energy sources such as wind (eolic) or wave (wave energy). This adaptability enables integration into systems operating at variable speeds and low rotational regimes while maintaining high hydraulic efficiency.

  The Smart Pump technology is protected by patent, ensuring its exclusivity and added value as a key component in desalination, pumping, or energy generation solutions based on natural resources.