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New plant transforms wave energy into electricity that could revolutionize the future of the energy sector! The system has no fixed structure, making the process efficient and economical

Written by Ruth Rodrigues
Published 25/12/2024 às 18:15
New Kinowave plant generates clean energy from ocean waves, without fixed structures, offering innovation and efficiency.
Source: James Dyson Award

New Kinowave plant generates clean energy from ocean waves, without fixed structures, offering innovation and efficiency.

One new plant that generates energy from ocean waves promises to transform the renewable energy sector. The system, called Kinowave, does away with the need for fixed or anchored structures, making the process more economical and efficient. The innovation could be a solution to the challenge of harnessing the energy potential of ocean waves.

How does the plant work?

With the search for new alternatives, the sea presents itself as a natural source of energy. However, current technologies face high costs and low efficiency.

Kinowave arrives as a proposal for innovation to overcome these difficulties and make wave energy more accessible, enabling its large-scale application.

The system works with vertical cylinders connected by flexible tubes that float on the surface of the sea. The movement of the waves makes the cylinders move up and down, generating an internal fluid flow.

This flow is converted into energy through turbines known as Wells, which are highly efficient in converting wave movement into electricity.

Unlike other power plants that require fixed systems on the seabed, Kinowave does not use large infrastructures.

This reduces installation costs and makes maintenance easier. The absence of permanent structures also preserves the marine environment, making this innovation smarter.

The simplicity of the system expands its possibilities of use, proving that the sea can be a viable solution for generating clean energy.

The development of the project

O project Kinowave emerged from the challenge of creating an efficient plant to capture the energy of ocean waves.

Inspired by Pascal's principle, the system started with a basic prototype made of connected plastic bottles.

The initial model showed promising results, but had limitations in fluid flow.

With design improvements, plastic cylinders were replaced by larger diameter tanks and pipes, increasing system efficiency.

Furthermore, the incorporation of floats and Wells turbines has optimized the process of converting wave energy into electricity.

Tests carried out in wave pools have proven Kinowave's superior efficiency compared to other plants.

The advancement of this innovation allows us to see the sea as an even more viable source of energy, especially for countries with vast coastlines.

The possibility of taking advantage of the movement of waves without high costs makes the Kinowave system a practical and efficient solution.

Upcoming plans for the Kinowave plant

The Kinowave system can have a and impact significant in the global energy sector. Its modular and adaptable design allows implementation in different regions of the world, making wave energy a viable option.

The simplicity of this innovation facilitates access to clean energy at different scales.

Next steps include sea trials with larger prototypes and expansion to plants capable of generating up to 10 kW of power, which could power small communities.

The proposal is that the capture of energy from ocean waves will gain commercial scale in the coming years, contributing to the global energy transition.

With the growing search for renewable alternatives, the sea, with its constant waves, offers enormous potential.

The innovation brought by Kinowave can consolidate the use of this power plant as an efficient and affordable solution.

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Ruth Rodrigues

Graduated in Biological Sciences from the State University of Rio Grande do Norte (UERN), she works as a writer and scientific disseminator.

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