SHC series Hydrogen Generators are the electrolysis of KOH liquid to produce hydrogen. This generator meets the requirements of many types of gas chromatographs at home and abroad. The operational principle of this instrument is traditional electrolyzing lye. The conducting medium in the cell is the water solution of KOH. The membrane between the two electrode chambers is for the navigation electrolysis equipment. After electrifying direct current, the electrochemical reaction of the water molecule occurs. It produces oxygen at the anode and hydrogen at the cathode. The reaction equation is as follows:
Anode: 2OH--2e → H2 (1/2)O2 ↑
Cathode: 2H2O 2e → 2OH- H2 ↑
Final Reaction Equation: 2H2O → 2 H2 ↑ O2 ↑
The pressure control, protective pressure, flow display, and flow tracking are all automatically controlled. The hydrogen output is self-regulated according to the use of the hydrogen flow under stable pressure (in the range of output flow).
• Gas chromatography carrier gas and fuel gas
• Hydrogen supply for fuel cell
• ICP-MS collision gas
• Hydrogen supply for hydrogenation reactor
• Hydrogen supply for emissions test equipment
• Gas analyzer support gas
• ELCD (conductivity detector) reaction gas
• AED (atomic emission detector) of reaction gas
• Other pure hydrogen application field
• Easy to operate, safe and reliable, adding lye only for one time
• Only need to replenish distilled water
• Switching power on to produce gas
• Device for preventing back flow of lye
• Drum-shaped electrolysis cell (high grade stainless steel 316L)
• High electrolysis efficiency
Model | Unit | SHC-300 | SHC-500 | SHC-1000 |
H2 Flow Rate | mL / min | 0 - 310 | 0 - 510 | 0 - 1000 |
H2 Purity | % | > 99.9999 | ||
Output Pressure | bar | 0.2 - 4.0 | ||
Dew Point | ° C | < 60 | ||
Input Power | Watt | < 150 | < 250 | < 250 |
Weight | kg | < 12 | < 14 | < 14 |
Voltage | AC | 220V/110V, 50-60Hz | ||
H2 Outlet Connector | inch | 1/8" or other | ||
Dimensions (L x W x H) | cm | 42 x 23 x 36 |
General lead time of two to three weeks to be expected.