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Representative model and flow characteristics of open pore cellular foam and potential use in proton exchange membrane fuel cells

机译：开孔泡沫泡沫的代表性模型和流动特性及其在质子交换膜燃料电池中的潜在用途

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This study develops a Representative Unit Cell Structure (RUCS) model for Open Pore Cellular Foam (OPCF) material, based on a dodecahedron cell. Pressure, velocity and flow regime analysis is performed on simulation results of six different OPCFs, (10, 20, 30, 40, 45, 80 and 100ppi), at five different inlet velocities (1m/s, 3m/s, 6m/s, 9m/s & 12m/s). Pressure drop results were verified by numerical models (Dupuit-Forchheimer, Ashby and Fourie and Du Plessis mathematical models) and experimental results from literature. udFrom this study OPCF material can have benefits if used in a PEM fuel cell; in place of or in conjunction with conventional flow plates. It is concluded that OPCF materials can reduce the permeability of the gas flow through a flow plate, creating a more tortuous path for the fluid, allowing for diffusion plus convection based flow, unlike conventional flow plates.ud

机译：这项研究开发了一种基于十二面体细胞的开孔多孔泡沫（OPCF）材料的典型单位单元结构（RUCS）模型。在六个不同的OPCF（10、20、30、40、45、80和100ppi）的模拟结果下，以五个不同的入口速度（1m / s，3m / s，6m / s）进行压力，速度和流动状态分析，9m / s和12m / s）。压降结果通过数值模型（Dupuit-Forchheimer，Ashby和Fourie和Du Plessis数学模型）和来自文献的实验结果进行了验证。 ud这项研究表明，如果将OPCF材料用于PEM燃料电池，则可能会受益。代替传统的流板或与之结合。结论是，与传统的流板不同，OPCF材料可以降低流过流板的气流的渗透性，从而为流体创建更曲折的路径，从而允许基于扩散和对流的流动。

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Carton James; Olabi Abdul-Ghani;
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年度 2015
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1. Representative model and flow characteristics of open pore cellular foam and potential use in proton exchange membrane fuel cells [J] . Carton J. G., Olabi A. G. International journal of hydrogen energy . 2015,第16期

机译：开孔多孔泡沫的代表性模型和流动特性及其在质子交换膜燃料电池中的潜在应用
2. Three-dimensional proton exchange membrane fuel cell model: Comparison of double channel and open pore cellular foam flow plates [J] . Carton J. G., Olabi A. G. Energy . 2017,第octa1期

机译：三维质子交换膜燃料电池模型：双通道和开孔多孔泡沫流板的比较
3. A comparison on the dynamical performance of a proton exchange membrane fuel cell (PEMFC) with traditional serpentine and an open pore cellular foam material flow channel [J] . Khatib F. N., Wilberforce Tabbi, Thompson J., International journal of hydrogen energy . 2021,第8期

机译：具有传统蛇纹石的质子交换膜燃料电池（PEMFC）的动力学性能比较，开放孔细胞泡沫材料流动通道
4. PORE STRUCTURE MODELING OF FLOW IN GAS DIFFUSION LAYERS OF PROTON EXCHANGE MEMBRANE FUEL CELLS [C] . Zhongying Shi, Xia Wang International conference on fuel cell science, engineering, and technology;FuelCell2010 . 2011

机译：质子交换膜燃料电池气体扩散层中流动的孔结构模拟
5. Design and Manufacture of Metal Foam Flow Fields for Proton Exchange Membrane Fuel Cells [D] . Smith, Travis Lee. 2017

机译：质子交换膜燃料电池金属泡沫流场的设计与制造
6. Three-Dimensional Transport Modeling for Proton Exchange Membrane(PEM) Fuel Cell with Micro Parallel Flow Field [O] . Pil Hyong Lee, Sang Seok Han, Sang Soon Hwang 2008

机译：具有微平行流场的质子交换膜（PEM）燃料电池的三维输运建模
7. Representative model and flow characteristics of open pore cellular foam and potential use in proton exchange membrane fuel cells [O] . Carton, James, Olabi, Abdul-Ghani 2015

机译：开孔多孔泡沫的代表性模型和流动特性及其在质子交换膜燃料电池中的潜在应用

Representative model and flow characteristics of open pore cellular foam and potential use in proton exchange membrane fuel cells

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