A mild method for the activation of cation exchange membranes used in tubular PEM electrolyzers

Sánchez Batalla, Beatriz; Laube, Armin; Struckmann, Thorsten; Hofer, André; Zallmann, Sebastian; Körner, Carolin; Fischer, Simon; Burek, Bastien Oliver; Bachmann, Julien; Weidlich, Claudia

doi:10.1002/cplu.202300735

Publisher DOI:	10.1002/cplu.202300735
Title:	A mild method for the activation of cation exchange membranes used in tubular PEM electrolyzers
Language:	English
Authors:	Sánchez Batalla, Beatriz Laube, Armin Struckmann, Thorsten Hofer, André Zallmann, Sebastian Körner, Carolin Fischer, Simon Burek, Bastien Oliver Bachmann, Julien Weidlich, Claudia
Keywords:	hydrolysis; membrane pretreatment and characterization; PEM water electrolysis; SuFEx reaction; tubular geometry
Issue Date:	21-Dec-2023
Publisher:	Wiley
Journal or Series Name:	ChemPlusChem
Volume:	:tba
Issue:	:tba
Project:	Tubulyze: Auslegungsgrundlagen einer tubulären, mittels additiver Methoden und Extrusion gefertigten Elektrolysezelle, Teilvorhaben: Zellentwicklung, Systemintegration und Charakterisierung
Abstract:	Co-extrusion of both half-cells in tubular PEM water electrolyzers can lower the costs for hydrogen production, since the number of components is reduced and the production process is simplified. However, after co-extrusion of the inner half-cell and the ion exchange membrane, the membrane is in its fluoride sulfonyl form and must be hydrolyzed to achieve the proton conductive sulfonic acid to be ready for use. Common practice is the hydrolysis using concentrated alkaline solutions, which causes a corrosion of the laminated anode electrode. We developed a less corrosive method using triethylsilanol as reactant. Tubular membranes hydrolyzed with this new procedure were characterized and tested in an electrolyzer laboratory test setup.
URI:	http://hdl.handle.net/20.500.12738/15166
ISSN:	2192-6506
Review status:	This version was peer reviewed (peer review)
Institute:	Fakultät Technik und Informatik Department Maschinenbau und Produktion Heinrich-Blasius-Institut für Physikalische Technologien
Type:	Article
Funded by:	Bundesministerium für Bildung und Forschung
Appears in Collections:	Publications without full text