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X3 Hydrogen Reactor 1000Watt
One of the flagship products produced by BLULAB is certainly the X3 Reactor. With its compact dimensions of just 170mm in height and a diameter of 120mm, it encapsulates the full potential of RFT ultra-compact technology for the production of hydrogen and oxygen gas at resonance frequency. The device architecture has been designed to minimize dimensions, including the control unit and the electrolytic core capable of generating over 30 cm³/second of oxyhydrogen at full operation using 360 watts, employing a voltage of 12 volts and demineralized water devoid of any chemical electrolyte.
The X3 reactor is organized into two zones: the lower part dedicated to the reactor core, the electrolytic sector, and the upper part dedicated to the electronic circuit, the logic sector. The electrolytic sector houses a polarized reactor. To perform the electrolytic process, it is immersed in demineralized water at a controlled temperature and appropriately powered with a voltage between 12 and 24 volts, modulated from 0 to 50 Amperes.
The reactor dashboard includes VCC and GND power connections as well as 4 terminations for input and output, and three holes, respectively MODE, SWITCH, and CONFIG for configuration and interfacing operations with the reactor.
The systems as a whole are equipped with an injection system that, through a micro compressor, pushes the combustible gas produced on demand into the engine's intake circuit, simulating a cylinder for storing combustible gas.
1. Maximum propulsion potential available, thanks to the efficiency of the fuel free of unburned substances;
2. Extended lifespan of mechanical parts and engine life, thanks to the new clean fuel;
3. Quieter engine operation, with tests conducted by Civil Motorization officials recording a 40% reduction in engine noise;
4. Reduction of exhaust fumes by up to 90%;
5. Fuel savings from 30% when the technology is used as an additive, up to 80% when adopting the injection system;
6. Decarbonization by introducing hydrogen removes carbon deposits in exhaust systems, improving vehicle performance.
Basic Features
1. Universal self-learning of minimum and maximum operating values of engine load. The self-learning system allows coupling the X3 reactor to different vehicles and engines each time, considering their type, wear and tear, maintenance conditions, usage, and efficiency; this optimizes savings performance and the level of reliability and compatibility;
2. Real-time gas production adjustment based on engine performance requirements. Real-time gas production based on engine operating needs eliminates gas storage and accumulation, and thus all related issues. It also optimizes the energy absorption of the system, reflecting on savings performance and the overall reliability and safety level of the system;
3. Automatic management of electrolytic sector refill with demineralized water from the tank located at the rear of the vehicle;
4. Gas production cutoff in case of drop in operating regime or engine load to 0% and engine shutdown;
5. Automatic power supply cutoff in the absence of water in the reactor;
6. Temperature control of the anode and cathode as well as power Mosfets and automatic anti-boiling protection of the electrolytic sector. The anti-boiling control maintains the system in optimal operating conditions and prevents the formation of water vapors that would contaminate the produced gas, reducing its quality. Every X3 system is developed with excellence standards for gas quality and characteristics.
7. Upon engine shutdown, the electronic control unit waits for a preset time to activate a vacuum electropump located at the vehicle's suction circuit to extract any residual gases. This allows for the aspiration of any residual gases, thus eliminating the risk of detonations during the subsequent engine ignition.
Applications:
Land Transportation
Residential Heating
Residential kitchen
Medical
Aerospace