Hydrogen Generators
Our international suppliers have in excess of 25 years, specializing in R&D PEM hydrogen technology and boasts the largest PEM hydrogen equipment factory in China. Ongoing research and development efforts have resulted in the supply of reliable hydrogen systems for various industries including nuclear, to produce ultra-pure hydrogen to support critical commercial missions.
Our main products include industrial and lab-use generators including PEM Hydrogen Generators and water de-ionizer systems for Balloon Filling purposes of national weather services.
Skygauge Technology owns the distribution rights to this technology in South Africa, and our suppliers have impressively exported to over 80 countries including USA, Britain, South Korea and Japan.
Technical Parameters
QLS series PEM hydrogen generator which adopt PEM technology that electrolysis pure water (no added alkali), produce high purity hydrogen. It is high integration and automation, high-tech patented products. The systems benefit hydrogen users by improving supply reliability and site safety, while also reducing hydrogen storage space.
Model: H0.5
- Max Hydrogen flow:0.5Nm3/H
- Hydrogen purity:99.999%
- H2 Outlet Pressure:100psi
- Output adjustable range:0-100%
- H2 product outlet connector:
- 1\4"CPI Pressure pipe fittings (stainless steel)
- Water consumption:<0.55L/H
- electrolysis power:3kW
- Voltage: AC 380v/220v,50-60Hz
- PLC wisdom control
- Touch Screen
- Tech employed: Proton Exchange
- Membrane (PEM) Solid Electrolyte
- Maintenance-Free and Caustic-Free
- Operating Environment: Indoor, non-classified, 40°F to 104°F (5°
- C to 40°C), < 90% RH, ventilated
- With H2 leakage sensor and alarm
- With automatic water adding
- With other wisdom sensor & alarm
- ISO9001:2008(CI136557Q)
Our hydrogen generation systems use a platinum catalyst and PEM (Proton Exchange Membrane) technology to split deionized water into its constituent parts. The proton exchange membrane (PEM), which only allows water and positive ions to cross between compartments. The membrane also serves as the electrolyte in the cell, eliminating the need for hazardous liquid electrolytes such as concentrated potassium hydroxide. PEM water electrolysis simply splits pure deionized water (H2O) into its constituent parts, hydrogen (H2) and oxygen (O2), on either side of this membrane. When a DC voltage is applied to the electrolyser, water fed to the anode, or oxygen electrode, are oxidized to oxygen and protons, while electrons are released. The protons (H+ ions) pass through the PEM to the cathode, or hydrogen electrode, where they meet electrons from the other side of the circuit and are reduced to hydrogen gas. The two reactions that occur in the cell are as follows:
2.2H2O -> 4H+ + 4e- +O2 3.4H+ + 4e- -> 2H24. Thus, the only possible components of the streams are hydrogen, oxygen and water moisture.