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A master's thesis from Aalborg University
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Investigations of novel AC:DC dynamic operations on PEM electrolyser

Author

Term

4. term

Education

Energy Engineering, Master

Publication year

2023

Submitted on

Abstract

This thesis investigates a novel dynamic AC:DC operation of a single PEM electrolyzer cell and compares it to conventional DC operation. Motivated by prior studies on SOEC reporting thermal benefits and effects on long-term degradation under AC:DC, the work assesses the feasibility and impact for PEM water electrolysis. A benchtop setup comprising a reservoir with distilled water, a hot plate, a water pump, a power supply, and a sandwiched PEM cell is used to run the experiments. Under various AC:DC modes and DC, electrochemical impedance spectroscopy (EIS) and galvanodynamic measurements are performed to characterize changes in cell properties, including ohmic and charge-transfer resistances and frequency-dependent impedance features. The report contrasts AC:DC and DC operation and discusses potential positive effects of AC:DC on PEM electrolysis alongside practical observations from the test campaign. Quantitative results and definitive findings are not available in this excerpt.

Denne specialeopgave undersøger en ny dynamisk AC:DC-drift af en enkelt PEM-elektrolysecelle og sammenligner den med konventionel DC-drift. Baggrunden er, at AC:DC-drift nyligt er afprøvet på SOEC og rapporteret at give termiske fordele og påvirke langtidsnedbrydning; her vurderes overførbarheden til PEM-vandelektrolyse. Et laboratorieopsæt bestående af en beholder med destilleret vand, en varm plade, en vandpumpe, en strømforsyning og en sandwicheteret PEM-celle anvendes til testene. Under forskellige AC:DC-tilstande og ved DC gennemføres elektrokemisk impedansspektroskopi (EIS) og galvanodynamiske målinger for at karakterisere ændringer i celleegenskaber, herunder ohmiske og ladningsoverførselsrelaterede modstande samt frekvensafhængige impedansbidrag. Rapporten sammenligner resultaterne mellem AC:DC og DC-drift og diskuterer mulige positive effekter af AC:DC på PEM-elektrolyse samt praktiske erfaringer fra forsøgsopstillingen. Kvantitative detaljer og endelige konklusioner fremgår ikke af det foreliggende uddrag.

[This apstract has been generated with the help of AI directly from the project full text]

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