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Environment & Energy
Related: About this forumWaseda University: Transforming Anion Exchange Membranes in Water Electrolysis for Green Hydrogen Production
https://www.waseda.jp/top/en/news/82506Transforming Anion Exchange Membranes in Water Electrolysis for Green Hydrogen Production
A new polymer-based anion exchange membrane improves performance and durability, which is essential for producing green hydrogen
A group of researchers has implemented polyphenylene-based anion exchange membranes (AEMs) poised to make hydrogen production more efficient and durable. Its robust hydrophobic design enables effective ion transport while resisting chemical degradation. This supports its potential for durable, high-efficiency use in AEM water electrolyzers, making it a promising component in sustainable hydrogen production applications, which would advance the goal of a carbon-free energy future.
The membrane demonstrated consistent performance during water electrolyzer testing, sustaining a constant current density of 1.0 A.cm² for over 1,000 hours with minimal voltage change. According to Miyatake, The durability shown here is an encouraging sign that our membrane can help reduce costs in hydrogen production.
Further, the membranes OH ̅ conductivity reached 168.7 mS.cm-1 at 80 °C, surpassing the values mentioned in earlier research studies. This high conductivity is critical for achieving high current densities needed to make hydrogen production efficient. By combining durability with such high conductivity, the team believes this material design marks an important advance toward scalable and affordable hydrogen production.
http://dx.doi.org/10.1002/aenm.202404089A new polymer-based anion exchange membrane improves performance and durability, which is essential for producing green hydrogen
A group of researchers has implemented polyphenylene-based anion exchange membranes (AEMs) poised to make hydrogen production more efficient and durable. Its robust hydrophobic design enables effective ion transport while resisting chemical degradation. This supports its potential for durable, high-efficiency use in AEM water electrolyzers, making it a promising component in sustainable hydrogen production applications, which would advance the goal of a carbon-free energy future.
The membrane demonstrated consistent performance during water electrolyzer testing, sustaining a constant current density of 1.0 A.cm² for over 1,000 hours with minimal voltage change. According to Miyatake, The durability shown here is an encouraging sign that our membrane can help reduce costs in hydrogen production.
Further, the membranes OH ̅ conductivity reached 168.7 mS.cm-1 at 80 °C, surpassing the values mentioned in earlier research studies. This high conductivity is critical for achieving high current densities needed to make hydrogen production efficient. By combining durability with such high conductivity, the team believes this material design marks an important advance toward scalable and affordable hydrogen production.
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Waseda University: Transforming Anion Exchange Membranes in Water Electrolysis for Green Hydrogen Production (Original Post)
OKIsItJustMe
Tuesday
OP
Aussie105
(6,254 posts)1. 1 Amp per square cm!
Lots of square cms, lots of Amps!
How is that electricity generated?
MrWowWow
(381 posts)3. For an AEM electrolyzer...
For an AEM electrolyzer, DC electricity and water are fed into it. Oxygen and Hydrogen
gases come out.
______________________________
For an AEM fuel cell, Oxygen and Hydrogen gases are fed into it, DC electricity and water come out.
_______________________________
Anion Exchange Membranes (AEMs) are typically alkaline in nature. They are used in alkaline environments and facilitate the transport of anions such as hydroxide (OH⁻ ions. This makes them valuable for applications like alkaline fuel cells and electrolysis systems.
-ChatGPT
Caribbeans
(975 posts)4. Worlds Largest Solar Hydrogen Plant opens in Ningxia, China
No sun but rivers? Imagine how much green electricity comes from Niagara Falls
OKIsItJustMe
(20,731 posts)2. If it's "green hydrogen" then, by definition, the source is renewable.
Wikipedia: Green hydrogen