Simulation of the market penetration of hydrogen fuel cell vehicles in Korea

## Abstract This is the third paper of a three part series on fuel cell vehicle (FCV) simulation. In Part 1 of this series, the existing publicly available models for FCV analysis and simulation were evaluated and the strengths and weaknesses of these models were identified. In Part 2, a new FCV si

## Abstract The electrode performances of the alternative oxides: La~0.05~Ca~0.95~Cr~0.05~Ti~0.95~O~3‐δ~‐8YSZ and Ce~0.8~TM~0.2~O~2‐δ~(TM=Mn, Co) for the direct electrochemical oxidation of methane are investigated to assess their potential as anode materials for efficient methane conversion in a S

A simple one-dimensional model of the impedance of a hydrogen/Nafion electrode is set up combining the usual Maxwell-Wagner approach for linear, homogeneous, and isotropic media with the linearized Butler-Volmer equation for the interfacial, electrochemical reaction. Only one relaxation semicircle i

## Abstract In this study, we explored thin films of nanofibrous functionalised conducting plasma polyaniline (pPANI) with platinum deposited by an atmospheric plasma deposition process for the potential design of anodes for hydrogen fuel cell applications. We observed that the incorporation of suc

## Abstract Solid oxide fuel cells with Ni–yittria‐stabilised zirconia (YSZ) anode supports were tested on surrogate natural gas fuels (methane containing 2.5–10% ethane and 1.25–5% propane) and compared with results for pure methane. Inert anode‐side diffusion barriers were found to help suppress

Numerical simulation has been carried out of the fluid flow, heat and mass transfer for the developing laminar flow in polymer electrolyte membrane (PEM) fuel cell cathode and anode flow channels, respectively. Each flow channel is considered to be composed of two parallel walls, one porous (simulat