Nonuniform compensation of current density distribution in polymer electrolyte fuel cells by local heating

Nonuniform compensation of current density distribution in polymer electrolyte fuel cells by local heating

A homogeneous current density distribution improves a fuel cell's performance and prolongs its service life. Effective cell structure designs and uniform compression during assembly could support this goal by ensuring a homogeneous reaction rate across the activation area. Due to the coupling o...

Полное описание

Библиографические подробности
Главные авторы:	Zhou, S, Rasha, L, Xu, L, Du, W, Shearing, PR, Coppens, M-O, Brett, DJL, Jervis, R
Формат:	Journal article
Язык:	English
Опубликовано:	Elsevier 2023

Схожие документы

Up in smoke: considerations for lithium-ion batteries in disposable e-cigarettes
по: Reid, HT, и др.
Опубликовано: (2023)

An adaptive fuel cell hybrid vehicle propulsion sizing model
по: Di Yang, J, и др.
Опубликовано: (2024)

Communication - Prediction of thermal issues for larger format 4680 cylindrical cells and their mitigation with enhanced current collection
по: Tranter, TG, и др.
Опубликовано: (2020)

The influence of cathode degradation products on the anode interface in lithium-ion batteries
по: Zhang, Z, и др.
Опубликовано: (2024)

PEMFC Electrochemical Degradation Analysis of a Fuel Cell Range-Extender (FCREx) Heavy Goods Vehicle after a Break-In Period
по: Yang, J, и др.
Опубликовано: (2024)

Nonisothermal two‐phase modeling of the effect of linear nonuniform catalyst layer on polymer electrolyte membrane fuel cell performance
по: Seyedali Sabzpoushan, и др.
Опубликовано: (2020-10-01)

High-speed 4D neutron computed tomography for quantifying water dynamics in polymer electrolyte fuel cells
по: Ralf F. Ziesche, и др.
Опубликовано: (2022-03-01)

"Snake" instability of charge compensated nonuniform electron beam
по: Vladimir Petrovich Grigoriev, и др.
Опубликовано: (2009-06-01)

"Snake" instability of charge compensated nonuniform electron beam
по: Vladimir Petrovich Grigoriev, и др.
Опубликовано: (2009-06-01)

Direct observations of electrochemically induced intergranular cracking in polycrystalline NMC811 particles
по: Parks, HCW, и др.
Опубликовано: (2022)

Estimation of localized current anomalies in polymer electrolyte fuel cells from magnetic flux density measurements
по: Takaaki Nara, и др.
Опубликовано: (2016-05-01)

Distribution of the Current Density in Electrolyte of the Pem Fuel Cell
по: Eugeniusz Kurgan, и др.
Опубликовано: (2004-01-01)

Polymer electrolyte fuel cell degradation /
по: Mench, Matthew M., и др.
Опубликовано: (2012)

Polymer electrolyte fuel cell durability /
по: Buchi, Felix N., и др.
Опубликовано: (2009)

Materials for Polymer Electrolyte Fuel Cells
по: Lorenz Gubler, и др.
Опубликовано: (2004-12-01)

Scalable Sacrificial Templating to Increase Porosity and Platinum Utilisation in Graphene-Based Polymer Electrolyte Fuel Cell Electrodes
по: Theo A. M. Suter, и др.
Опубликовано: (2021-09-01)

Current-Distribution Measurement in Polymer Electrolyte Water Electrolysis Equipment and Polymer Electrolyte Fuel Cell Using NMR Sensor
по: Yasuo YOKOUCHI, и др.
Опубликовано: (2009-12-01)

Data for an Advanced Microstructural and Electrochemical Datasheet on 18650 Li-ion Batteries with Nickel-Rich NMC811 Cathodes and Graphite-Silicon Anodes
по: T.M.M. Heenan, и др.
Опубликовано: (2020-10-01)

3D imaging of lithium protrusions in solid-state lithium batteries using x-ray computed tomography
по: Hao, S, и др.
Опубликовано: (2020)

Optimisation of Mass Transport Parameters in a Polymer Electrolyte Membrane Electrolyser Using Factorial Design-of-Experiment
по: Jude O. Majasan, и др.
Опубликовано: (2021-04-01)

Polymer electrolyte membrane fuel cells and electrocatalysts /
по: Esposito, Richard, 1963-, и др.
Опубликовано: (c200)

Perfluorinated polymer electrolyte membranes for fuel cells /
по: 505537 Okada, Tatsuhiro, и др.
Опубликовано: (c200)

Hydrocarbon polymer electrolytes for fuel cell applications /
по: 505536 Qiao, Jinli, и др.
Опубликовано: (c200)

Solid polymer electrolyte fuel cell apparatus /
по: 265530 Atsuo Sonai, и др.

Nonuniform Oxidation on the Surface of Fuel Element in HTR
по: Peng Liu, и др.
Опубликовано: (2016-01-01)

Operando ultrasonic monitoring of the internal temperature of lithium-ion batteries for the detection and prevention of thermal runaway
по: Owen, RE, и др.
Опубликовано: (2024)

Design of scalable, next-generation thick electrodes: opportunities and challenges
по: Boyce, AM, и др.
Опубликовано: (2021)

Diagnosing Stagnant Gas Bubbles in a Polymer Electrolyte Membrane Water Electrolyser Using Acoustic Emission
по: Maximilian Maier, и др.
Опубликовано: (2020-10-01)

Robust nonlinear adaptive pressure control of polymer electrolyte membrane fuel cells considering sensor failures based on perturbation compensation
по: Jian Chen, и др.
Опубликовано: (2022-11-01)

Polymer electrolyte fuel cells : science, applications, and challenges /
по: Franco, Alejandro A.
Опубликовано: (2013)

Preparation of electrodes for solid polymer electrolyte fuel cells /
по: 269785 Kazuhiro Hirai

Simulation and modeling of polymer electrolyte membrane fuel cell
по: Cheng, Kelvin Yeo Boon.
Опубликовано: (2009)

Mass Spectrometry of Polymer Electrolyte Membrane Fuel Cells
по: Viktor Johánek, и др.
Опубликовано: (2016-01-01)

Droplet impingement on nonuniform heated substrates
по: Ng, Han Kiat
Опубликовано: (2023)

Impact of MPL on Temperature Distribution in Single Polymer Electrolyte Fuel Cell with Various Thicknesses of Polymer Electrolyte Membrane
по: Akira Nishimura, и др.
Опубликовано: (2020-05-01)

Study of scene-based nonuniformity compensation in infrared focal plane arrays
по: Juliano, Laura S. (Laura Susan)
Опубликовано: (2008)

Phosphorescent extensophores expose elastic nonuniformity in polymer networks
по: Kaikai Zheng, и др.
Опубликовано: (2023-02-01)

Polymer blend nanocomposites for polymer electrolyte membrane fuel cell (PEMFC) applications
по: Siti Maznah, Kabeb, и др.
Опубликовано: (2023)

Enzymatic Based Biocathode in a Polymer Electrolyte Membrane Fuel Cell
по: Flavio Colmati, Sergio A. Yoshioka, Victor L. V. B. Silva, Hamilton Varela, Ernesto R. Gonzalez
Опубликовано: (2007-02-01)

Catalytic activity and stability of heat-treated iron phthalocyanines for the electroreduction of oxygen in polymer electrolyte fuel cells /
по: Lalande, G.