TY - BOOK AU - He,Zhongjie AU - Li,Hua AU - Birgersson,Karl Erik ED - SpringerLink (Online service) TI - Reduced Modelling of Planar Fuel Cells: Spatial Smoothing and Asymptotic Reduction SN - 9783319426464 AV - TJ165 U1 - 621.3126 23 PY - 2017/// CY - Cham PB - Springer International Publishing, Imprint: Springer KW - Energy storage KW - Energy systems KW - Renewable energy resources KW - Environmental economics KW - Mathematical models KW - Energy Storage KW - Energy Systems KW - Renewable and Green Energy KW - Environmental Economics KW - Mathematical Modeling and Industrial Mathematics N1 - 1 -- Introduction. 2 -- Full 3D Modeling of Planar Fuel Cells. 3 -- Development of Reduced PEMFC Models. 4 -- development of Reduced P-SOFC Models. 5 -- Integrated Stochastic and Deterministic Sensitivity Analysis of Cell and Stack Performances. 6 -- Conclusions; Available to subscribing member institutions only. Доступно лише організаціям членам підписки N2 - This book focuses on novel reduced cell and stack models for proton exchange membrane fuel cells (PEMFCs) and planar solid oxide fuel cells (P-SOFCs) that serve to reduce the computational cost by two orders of magnitude or more with desired numerical accuracy, while capturing both the average properties and the variability of the dependent variables in the 3D counterparts. The information provided can also be applied to other kinds of plate-type fuel cells whose flow fields consist of parallel plain channels separated by solid ribs. These fast and efficient models allow statistical sensitivity analysis for a sample size in the order of 103 without prohibitive computational cost to be performed to investigate not only the individual, but also the simultaneous effects of a group of varying geometrical, material, and operational parameters. This provides important information for cell/stack design, and to illustrate this, Monte Carlo simulation of the reduced P-SOFC model is conducted at both the single-cell and stack levels UR - https://doi.org/10.1007/978-3-319-42646-4 ER -