SFB 1313 Publication "Modeling of Two Phase Flow in a Hydrophobic Porous Medium Interacting with a Hydrophilic Structure"

July 12, 2022 /

Authors: Cynthia Michalkowski, Kilian Weishaupt, Veronika Schleper, Rainer Helmig | Scientific Journal: Transport in Porous Media

New SFB 1313 publication, published in Transport in Porous Media. The work has been developed within the associated SFB 1313 research projects A-X4.

Modeling of Two Phase Flow in a Hydrophobic Porous Medium Interacting with a Hydrophilic Structure

Authors
Abstract

Fluid flow through layered materials with different wetting behavior is observed in a wide range of applications in biological, environmental and technical systems. Therefore, it is necessary to understand the occuring transport mechanisms of the fluids at the interface between the layered constituents. Of special interest is the water transport in polymer electrolyte membrane fuel cells. Here, it is necessary to understand the transport mechanisms of water throughout the cell constituents especially on the cathode side, where the excess water has to be removed. This is crucial to choose optimal operating conditions and improve the overall cell performance. Pore-scale modeling of gas diffusion layers (GDLs) and gas distributor has been established as a favorable technique to investigate the ongoing processes. Investigating the interface between the hydrophobic porous GDL and the hydrophilic gas distributor, a particular challenge is the combination and interaction of the different material structures and wetting properties at the interface and its influence on the flow. In this paper, a modeling approach is presented which captures the influence of a hydrophilic domain on the flow in a hydrophobic porous domain at the interface between the two domains. A pore-network model is used as the basis of the developed concept which is extended to allow the modeling of mixed-wet interactions at the interface. The functionality of the model is demonstrated using basic example configurations with one and several interface pores and it is applied to a realistic GDL representation in contact with a channelland structured gas distributor.

This image shows Cynthia Michalkowski

Cynthia Michalkowski

M. Sc.

Doctoral Researcher, Associated Research Project AX4

This image shows Kilian Weishaupt

Kilian Weishaupt

Dr.-Ing.

Postdoctoral Researcher, Research Project A02

This image shows Rainer Helmig

Rainer Helmig

Prof. Dr.-Ing. Dr.-Ing. h.c.

Principal Investigator, Former Spokesperson, Research Projects A02 and C02, Central Project Z

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