Products
Green Independence's New Artificial Leaf (NAL) combines the latest innovations in photovoltaics and electrochemistry.
Soleidon provides an effective and sustainable method to purify water.
The Electrochemical Module (ECM) uses the electrolysis of water to produce green hydrogen using solar energy as the primary power source.
The Electrochemical Module leverages water electrolysis to produce green hydrogen using solar energy as a primary power source.
This module is essential for generating clean and sustainable fuel, reducing dependence on fossil fuels and accelerating the energy transition. The hydrogen generated is used across various sectors, offering a versatile and zero-emission solution for numerous applications.
The heart of clean energy
The ECM integrates an advanced electrolyzer, which harnesses the solar energy captured by photovoltaic panels to split water molecules into hydrogen and oxygen. This process takes place through the use of innovative low-noble-metal catalysts that reduce the overall cost of the system.
Distinctive aspects of the ECM
Efficient green hydrogen production
Conventional electrolyzers typically have a capacity equal to only one-third of the connected photovoltaic system. The ECM is engineered to maximize the use of available solar energy throughout all daylight hours. By discretizing the electrochemical system to follow solar availability, green hydrogen production is optimized, minimizing solar energy waste and making hydrogen production more sustainable and cost-effective.
Durability and reliability
The modular design introduces redundancies that, in the event of a failure, allow a partial rather than a complete shutdown, enhancing overall system robustness and durability. Additionally, the ECM is equipped with advanced monitoring systems that enable automated control and predictive diagnostics, reducing operating costs and ensuring continuous, high-efficiency performance.
Modularity and scalability
The modular architecture provides significant flexibility for installation based on specific customer needs, making the system adaptable to a wide range of contexts and applications.
Environmental Sustainability
By relying solely on solar energy and utilizing readily available, mostly recyclable materials, the ECM offers a practical and sustainable alternative to fossil fuels, actively contributing to decarbonization.
Innovative catalysts
The catalysts used are low in noble metals and enhance the efficiency of water electrolysis, reducing energy consumption. These materials ensure long operational life and optimal performance, minimizing maintenance and lowering green hydrogen production costs.
Reduced production costs.
Thanks to energy optimization and the use of innovative catalysts, both CAPEX and OPEX of the ECM are significantly reduced. This makes the cost of green hydrogen production highly competitive with traditional energy sources.
Fill out the form for more information.
