{"dcterms:modified":"2024-12-13","dcterms:creator":"A Dataverse Instance","@type":"ore:ResourceMap","@id":"https://data.fz-juelich.de/api/datasets/export?exporter=OAI_ORE&persistentId=doi:10.26165/JUELICH-DATA/RCL4O0","ore:describes":{"Title":"Stochastic representations of fiber-based gas diffusion layers","fzj:Institute":"IET-4","fzj:PoF IV topic":"Electrochemistry for Hydrogen (POF4-1231)","Author":{"author:Name":"Froning, Dieter","author:Affiliation":"Forschungszentrum Jülich GmbH, IET-4: Electrochemical Process Engineering","Identifier Scheme":"ORCID","Identifier":"0000-0003-2264-407X"},"citation:Contact":{"datasetContact:Name":"Froning, Dieter","datasetContact:Affiliation":"Forschungszentrum Jülich GmbH, IET-4: Electrochemical Process Engineering","datasetContact:E-mail":"d.froning@fz-juelich.de"},"citation:Description":{"dsDescription:Text":"Gas diffusion layers (GDLs) are relevant for the efficient fluid transport between the channel structure and the membrane electrode assembly (MEA) of fuel cells [1].\r\nBlack/white (BW) images of 25 realizations of a stochastic model represent the micro-structure of paper-type GDLs as manufactured by Toray. A binder model (5 representations) is combined with a fiber model (25 representations each). The 3D structures are represented by 130 images of size 512x512 each with a resolution of 1.5 µm/px. Every image represents a layer of 1.5 µm thickness. This leads to a total amount of 5*25*130=16250 images, arranged in a sub-folder structure that represents the binder model.\r\n\r\n130 images of size 512x512 layers represent a section of 768 µm x 768 µm m 195 µm of a GDL. The fiber thickness is 7.5 µm. Binder material is located layer-wise along some fibers with a binder width of 6 µm, 18 µm, 30 µm, 40 µm or filled polygons (indicated as FF).
\r\n\r\nThe stochastic fundamentals are published in [2]. Transport simulations using the Lattice Boltzmann method were conducted and presented in [1;3-9]. Machine learning (ML) aspects were addressed in [10-11].
\r\n\r\nFor binder with WW in {06, 18 30, 40, FF}, representation N in {1...25}, image number I in {1...130},\r\nimage path/names are:
binder-WW/SimN/Image_512x512_N_No_I.png.
\r\nFig. 1 in [1] shows images with binder width of (A) 6 µm, (B) 18 µm, (C) 30 µm and (D) filled polygons. Fig. 3 in [3] extends the illustration by an 40 µm example, labelled as (D) in [3].
\r\n\r\nSubsequent simulations in [4-9] favored the binder width of 18 µm. The ML investigations [10, 11] covered the same binder widths as [1]."},"Subject":"Engineering","citation:Keyword":{"keyword:Term":"Fuel cells; GDL; stochastic model; micro-structure; images"},"Related Publication":[{"Citation":"[1] Froning, D. / Brinkmann, J. / Reimer, U. / Schmidt, V. / Lehnert, W. / Stolten, D.\r\n3D analysis, modeling and simulation of transport processes in compressed fibrous microstructures, using the Lattice Boltzmann method, Electrochimica Acta (2013), Vol. 110 p. 325-334.","ID Type":"doi","ID Number":"10.1016/j.electacta.2013.04.071"},{"Citation":"[2] Thiedmann, R. / Fleischer, F. / Hartnig, C. / Lehnert, W. / Schmidt, V.\r\nStochastic 3D Modeling of the GDL Structure in PEMFCs Based on Thin Section Detection, J. Electrochem. Soc. (2008) , Vol. 155, No. 4 p. B391-B399.","ID Type":"doi","ID Number":"10.1149/1.2839570"},{"Citation":"[3] Froning, D. / Gaiselmann, G. / Reimer, U. / Brinkmann, J. / Schmidt, V. / Lehnert, W. Stochastic Aspects of Mass Transport in Gas Diffusion Layers, Transp Porous Med (2014) 103:469–495.","ID Type":"doi","ID Number":"10.1007/s11242-014-0312-9"},{"Citation":"[4] Froning, D. / Yu, J. / Reimer, U. / Lehnert, W. Stochastic Analysis of the Gas Flow at the Gas Diffusion Layer/Channel Interface of a High-Temperature Polymer Electrolyte Fuel Cell, Appl. Sci. (2018), 8, 2536.","ID Type":"doi","ID Number":"10.3390/app8122536"},{"Citation":"[5] Froning, D. / Yu, J. / Reimer, U. / Lehnert, W. Stochastic Analysis of the Gas Flow at the Gas Diffusion Layer/Electrode Interface of a High-Temperature Polymer Electrolyte Fuel Cell, Transp. Porous Media (2018), Vol. 123 p. 403-420.","ID Type":"doi","ID Number":"10.1007/s11242-018-1048-8"},{"Citation":"[6] Froning, D. / Yu, J. / Reimer, U. / Lehnert, W. Statistische Analyse des lokalen Wassertransportes einer Polymer-Elektrolyt-Brennstoffzelle, Chem. Ing. Tech. (2019), 91, No. 6, 865–871.","ID Type":"doi","ID Number":"10.1002/cite.201800158"},{"Citation":"[7] Yu, J. / Froning, D. / Reimer, U. / Lehnert, W. Apparent contact angles of liquid water droplet breaking through a gas diffusion layer of polymer electrolyte membrane fuel cell, Int. J. Hydrogen Energy (2018), Vol. 43 p. 6318-6330","ID Type":"doi","ID Number":"10.1016/j.ijhydene.2018.01.168"},{"Citation":"[8] Yu, J. / Froning, D. / Reimer, U. / Lehnert, W. Liquid water breakthrough location distances on a gas diffusion layer of polymer electrolyte membrane fuel cells, J. Power Sources (2018) , Vol. 389 p. 56-60.","ID Type":"doi","ID Number":"10.1016/j.jpowsour.2018.04.004"},{"Citation":"[9] D. Froning, Uwe Reimer, W. Lehnert. Inhomogeneous Distribution of Polytetrafluorethylene in Gas Diffusion Layers of Polymer Electrolyte Fuel Cells, Transp Porous Med (2021),","ID Type":"doi","ID Number":"10.1007/s11242-021-01542-0"},{"Citation":"[10] D. Froning, J. Wirtz, E. Hoppe, W. Lehnert. Flow Characteristics of Fibrous Gas Diffusion Layers Using Machine Learning Methods, Appl. Sci. (2022), 12, 12193.","ID Type":"doi","ID Number":"10.3390/app122312193"},{"Citation":"[11] D. Froning, E. Hoppe, R. Peters. The Applicability of Machine Learning Methods to the Characterization of Fibrous Gas Diffusion Layers, Appl. Sci. (2023), 13, 6981.","ID Type":"doi","ID Number":"10.3390/app13126981"}],"citation:Depositor":"Froning, Dieter","Deposit Date":"2024-11-05","Kind of Data":"micro-structure","Data Sources":"[2] Thiedmann, R. / Fleischer, F. / Hartnig, C. / Lehnert, W. / Schmidt, V.\r\nStochastic 3D Modeling of the GDL Structure in PEMFCs Based on Thin Section Detection, J. Electrochem. Soc. (2008) , Vol. 155, No. 4 p. 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