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Introduction of the Resonance Frequency Technology in BLULAB devices
Over the course of a decade, the BLULAB team has streamlined and perfected the electrolysis process by developing a series of new-concept electrochemical reactors. These reactors enable the splitting of water molecules to obtain hydrogen and oxygen in gaseous form using only demineralized water and low-voltage electric current, without employing any chemical electrolytes. At the core of these processes is Resonance Frequency Technology (RFT). The resonance frequency of a system is the frequency at which the system responds with the maximum amplitude of oscillation. In other words, it is the frequency at which an oscillating system resonates or vibrates most efficiently.
Resonance Principle
The resonance principle is based on the interaction between a periodic external force and an oscillating system. When the frequency of the external force matches the natural frequency of the system, resonance occurs. During resonance, the energy transferred to the oscillating system is maximal, leading to a significant increase in the amplitude of the oscillations.
Resonance Frequency Technology (RFT)
RFT, applied in electrolysis, involves modulating the frequency and amplitude of the square wave of electrical power supplied to the reactor, where electrolysis is processed. The modulation, driven by a specific algorithm, is defined based on the instantaneous operating conditions of the electrolytic reactor and the gas production demand, optimizing current absorption to achieve maximum energy efficiency.
The BLULAB engineering team, after perfecting RFT, has developed a series of electrolytic reactors complete with control electronics dedicated to the production of hydrogen and oxygen in gaseous form. They also enable electromethanation, which allows for the construction of a synthetic molecule equivalent to methane (CH4) starting from pure oxyhydrogen and CO2 recovered from the air or exhaust gases from internal combustion engines.
Technological Innovation
The invention presents significant innovations; it can dynamically control the production of fuel gas. The gas is produced in response to the pressure on the accelerator pedal, providing "fuel" derived from demineralized water. The implemented algorithms ensure balanced mixtures at both low and high engine speeds, maximizing reactor performance and eliminating unused gas accumulation. For safety, multiple sensors have been introduced to constantly monitor the preset temperature thresholds during operation, both in the electrolytic cells and the circuit itself, automatically regulating operating currents based on temperature. A level sensor, when necessary, activates an electric pump to maintain a constant water level in the reactor.
BLULAB technology is the result of numerous studies, research, patents, and production systems that have enabled decisive progress in the field of electrolysis, a phenomenon known for a long time. The key points of RFT technology are:
a) the ability to perform the electrolytic process without chemical additives;
b) the energy efficiency with which this process can be performed;
c) the speed and responsiveness of the process in producing large quantities of oxyhydrogen in real-time.
