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Oxyhydrogen Catalyzer 360Watt
The Oxyhydrogen Catalyzer is a system designed to split demineralized water into hydrogen and oxygen using only low-voltage electric current, without the use of any chemical electrolyte. Once separated, the gases are compressed and pushed through a catalytic converter that recombines the hydrogen and oxygen, generating a highly exothermic reaction that releases a significant amount of heat used for heating spaces without producing exhaust fumes, ensuring unprecedented efficiency.
The invention is based on RFT technology, which can split water through a highly efficient process, and the catalysis performed by a passive catalytic reactor. Under controlled conditions, the catalytic reactor reaches temperatures between 100°C and 600°C.
A fundamental component of the system is the catalytic converter, which facilitates the reaction between monoatomic hydrogen and oxygen to form water. This process is highly exothermic, releasing large amounts of thermal energy that are then used for heating. The catalytic converter employs a catalyst that accelerates the chemical reaction without being consumed in the process. This not only makes the system extremely efficient but also sustainable, as the catalyst can be used repeatedly.
The Oxyhydrogen Catalyzer offers numerous advantages. Firstly, using hydrogen as a heat source completely eliminates harmful emissions, contributing to the creation of cleaner and healthier indoor environments. Additionally, the renewable nature of hydrogen makes it a sustainable choice for heating, reducing the overall environmental impact.
The Catalytic Heating Reactor represents a significant step forward in the production of clean and efficient heat, leveraging advanced technologies to provide sustainable and environmentally friendly energy solutions.
Basic Features
Quantity of hydrogen and oxygen input to Catalytic Reactor: 25 cm³/second;
Electric power consumption: 360 Watts per hour;
Electronic circuit dimensions: 70mm height, 120mm diameter c.d.;
Operating temperature at approximately 900 ºF (482 ºC);
Catalytic converter lifespan > 10 years;
Water reactor lifespan > 10 years;
System maintenance: These systems require no maintenance but replacement after approximately 10 years of operational use.
