1. PEM technology---Proton Exchange Membrane
2. The PEM electrodes, as the core of the product, are highly active catalytic electrode with nearly zero distance between the elctrodes, which is formed by integrating composite catalyst with ion membrane with high electrolytic efficiency.
3. Plural-electrode and multiunit electrolysis cell structure. Excellent chemical technological process properties of heat and mass transfer,
3. Electrolysis of pure water( no adding alkali) to produce high purity(99.999%/99.9995%) hydrogenwith no corrosion and pollution.
4. Voltage of cell is low, electronic resistance in the electrolysis cell is little, could greatly saving energy. Circle time for changing desiccants is long.
5. Power consumption is less, electrolysis is efficient
|
Model |
QL-150
(A,B)
|
QL-300
(A,B) |
QL-500
(A,B) |
QL-1000 |
QL-2000 |
QL-3000 |
|
H2 Flow ( ml/min ) |
0--150 |
0--300 |
0--500 |
0--1000 |
0--2000 |
0--3000 |
|
Output Purity ( % ) |
>99.999 / >99.9999% |
|
Output Pressure(bar ) |
0.2---4/ 0.2--7bar ( Under Stable Pressure )
Set at 3.6bar when delivery |
|
Input Power ( W ) |
<80 |
<150 |
<250 |
<500 |
<1000 |
<1500 |
|
Power& Voltage |
220±20%; 110±20%DC 50--60Hz |
|
Fluctuation Rate of
Output Pressure |
<0.2% |
|
Water Consumption
( g/Hour ) |
8 |
16 |
25 |
50 |
100 |
150 |
|
Water Requirement |
Redistilled water or Deionized water
Electrical resistivity> 1Megohm/cm |
|
Inside Water Tank Volumn(L) |
3.2 |
3.2 |
3.2 |
3.2 |
7 |
14 |
|
Equipment Weight
( kgs ) |
<15
|
<15 |
<15 |
<18 |
<40 |
<90 |
中文
