Celtec High Temperature PEM Fuel Cell MEA (45cm2)

BASF offers a membrane electrode assembly (MEA) for high-temperature proton exchange membrane (HT-PEM) fuel cells and other relevant applications. This MEA operates at temperatures between 120 and 180 °C and can tolerate large concentrations of carbon monoxide as well as being able to run independently of humidification. This technology enables fuel cell systems to become simpler and more cost effective.

This Celtec®-P MEA has and active area of 45cm2 (6.72 by 6.72 cm) and it comes with the proprietary anode and cathode electrodes that are already bonded to the membrane.  A PDF drawing of the MEA design is given below.  

Fuel Cell Store currently offers the following standard MEA designs:

• Celtec®-P MEA 25 cm2
• Celtec®-P MEA 45 cm2
• Celtec®-P MEA 165 cm2

 

For any other tailored or customized high temperature proton exchange membrane fuel cell (HT-PEMFC) MEAs, please contact us at sales@fuelcellstore.com.

Some of the applications that can benefit from BASF Celtec®-P high temperature proton exchange membrane fuel cell MEAs are provided below.  Some of the major properties of these MEAs are also provided in the table below.

Applications	Properties
Backup Power Combined heat, power, and cooling Auxiliary power units Battery range extender	Based on polybenzimidazole and phosphoric acid Operating temperature 120 to 180 °C High tolerance to carbon monoxide in the fuel mixture No humidification is necessary Long operational lifetime and stability (>20k hours)

Hydrogen/Air and Reformate/Air reactant based fuel cell performance of Celtec®-P MEAs are provided below. 

Conventional high temperature PEMFC devices would usually use a polybenzimidazole PBI) or a co-polymer of PBI membrane that is phosphoric acid doped after the production of the membrane.  Such membrane activation and containment of the liquid acid inside the membrane result in acid leaching phenomenon.  PEM fuel cells generate water as the main by-product at the cathode side and presence of water further impacts the acid leaching phenomenon with the conventional PBI membrane.  Celtec®-P MEAs utilized an advance form of PBI membrane where the proprietary tetraamino monomer and dicarboxylic acid monomer are first reacted via polycondensation reaction in phosphoric acid and then a solution casting & hydrolysis step is carried out in order to obtain the Celtec®-P membrane.  This sol-gel synthesis protocol allows the PBI membrane to attain a novel morphology where the phosphoric acid is contained inside the membrane more effectively and has less acid leaching issues compared to conventional PBI membranes.  Laboratory test results showed that operational lifetimes of exceeding 20,000 hours can easily be achieved with Celtec®-P MEAs and Celtec®-P membranes.  The following graph provides the robust performance of Celtec®-P MEA against different humidity conditions.

 

For customers that purchased this product, a copy BASF Fuel Cell Handbook will be provided separately (free-of-charge) in an electronic format such as PDF file.

Celtec-P MEA Design Technical Data Sheet for 45cm2 Active Area

A typical lead time of 1-2 weeks is to be expected.

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