Water Electrolysis Anion Exchange Membrane Description
Water Electrolysis Anion Exchange Membrane is independently developed in response to the demand for hydrogen production through electrolysis of water. It has excellent thermal, chemical, and mechanical stability. Even at low alkaline concentrations, it can achieve high ion conductivity, making the hydrogen production process more stable, economical, and efficient. It is identified by membrane type and identification number (batch number).
Water Electrolysis Anion Exchange Membrane Specification
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Specification
|
HAM-1320
|
HAM-1350
|
|
Thickness (Dry), μm
|
20±1.5
|
50±2.5
|
|
Ionic Exchange Equivalent Weight, g/mol
|
1.9-2.3
|
1.6-1.9
|
|
Linear Swelling Rate (25℃/24h), %
|
≤2
|
|
Water Uptake, %
|
≥10
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≥15
|
|
Breaking Elongation, %
|
≥90
|
|
Tensile Strength, MPa
|
TD
|
MD
|
TD
|
MD
|
|
≥40
|
≥40
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≥30
|
≥30
|
|
Area Resistance, (25℃ Cl-) mΩ.cm2
|
≤200
|
≤400
|
|
Area Resistance, (25℃ OH-) mΩ.cm2
|
≤100
|
≤210
|
|
In-Plane Cl- Conductivity, mS/cm
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≥13
|
≥11
|
|
In-Plane HCO3– Conductivity, mS/cm
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≥7
|
≥6
|
|
Recommended Condition
|
0.5M KOH, ≤80℃
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Water Electrolysis Anion Exchange Membrane Application
- Hydrogen Production for Renewable Energy Systems:
AEM electrolyzers enable green hydrogen production from water, supporting the transition to renewable energy sources.
Hydrogen produced via AEM electrolysis can be used for seasonal energy storage or in fuel cells for electricity generation.
Used in sectors like ammonia production, steel manufacturing, and chemical synthesis, where hydrogen plays a key role.
- Decentralized Hydrogen Generation:
AEM electrolyzers can be deployed at point-of-use locations to generate hydrogen for transportation, fuel cells, or industrial applications.
Water Electrolysis Anion Exchange Membrane Packing
Our Water Electrolysis Anion Exchange Membrane is carefully handled during storage and transportation to preserve the quality of our product in its original condition.
