Lazena H2-600M- Inhaler for hydrogen and oxygen
The inhaler for hydrogen and oxygen uses one of the most advanced technologies in the world - a solid polymer electrolyte using titanium electrodes. When turned on, the device uses electrolysis to split water into hydrogen and oxygen. More
Inhaler for hydrogen and oxygen
dimensions: 365 x 250 x 420 mm
weight: 12,5 kg
purity of hydrogen: 99.99 %
maximum hydrogen flow rate: 600 ml/min
oxygen purity: 99.99 %
maximum oxygen flow: 300 ml/min
possibility of inhalation: H2 nebo O2 or combination
pressure stability: 0,001 Mpa
power supply: 220 V ± 10 % 50 Hz
power consumption: 120W
lifespan: 8 000 hours
The H2-600M inhalation device for producing molecular hydrogen and oxygen uses one of the most advanced technologies in the world—solid polymer electrolyte (SPE) with titanium electrodes and distilled water as the electrolyte. The oxygen content is less than 0.1 ppm. Hydrogen is produced at the cathode and oxygen at the anode. When switched on, the device uses electrolysis to break down water into hydrogen and oxygen. The gas generator separates hydrogen and oxygen at two electrodes. Pure hydrogen gas goes to a gas/water separator, which removes most of the water vapor from the hydrogen gas. Oxygen is collected in a water tank. Hydrogen will pass through a drying tube to obtain higher purity hydrogen gas. The SPE hydrogen/oxygen generator uses a highly sensitive automatic control system. Both flow and pressure are relatively stable. Pressure stability is less than 0.001 MPa, ensuring the production of high-purity gases and safe conditions.
Only distilled water purchased from a pharmacy may be used. This is not technical distilled water.
The H2-600M inhalation device uses state-of-the-art MEA/PEM (Membrane Electrode Assembly/Proton Exchange Membrane) technology, which is manufactured in the USA.
The device complies with Directive 2015/863/EU RoHS (Restriction of Hazardous Substances). Upon import, Regulation (EC) No. 1907/2006, or REACH, on the registration, evaluation, authorization, and restriction of chemicals is complied with.
