Proton Exchange Membrane Fuel Cells Modeling 1st Edition by Fei Gao, Benjamin Blunier, Abdellatif Miraoui ISBN 978-1848213395 1848213395
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Product details:
ISBN 10: 1848213395
ISBN 13: 978-1848213395
Author: Fei Gao, Benjamin Blunier, Abdellatif Miraoui
The fuel cell is a potential candidate for energy storage and conversion in our future energy mix. It is able to directly convert the chemical energy stored in fuel (e.g. hydrogen) into electricity, without undergoing different intermediary conversion steps. In the field of mobile and stationary applications, it is considered to be one of the future energy solutions.
Among the different fuel cell types, the proton exchange membrane (PEM) fuel cell has shown great potential in mobile applications, due to its low operating temperature, solid-state electrolyte and compactness.
This book presents a detailed state of art of PEM fuel cell modeling, with very detailed physical phenomena equations in different physical domains. Examples and a fully coupled multi-physical 1.2 kW PEMFC model are given help the reader better understand how to use the equations.
Table of contents:
Part 1: State of the Art: Of Fuel Cells Modeling
Chapter 1: General Introduction
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What is a fuel cell?
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Types of fuel cells
Chapter 2: PEMFC Structure
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Bipolar plates
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Membrane electrode assembly
Chapter 3: Why Model a Fuel Cell?
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Advantages of modeling and simulation
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Complex system modeling methods
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Modeling goals
Chapter 4: How Can a Fuel Cell be Modeled?
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Space dimension: 0D, 1D, 2D, 3D
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Temporal behavior: static or dynamic
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Type: analytical, semi-empirical, empirical
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Modeled areas: stack, single cell, individual layer
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Modeled phenomena
Chapter 5: Literature Models Synthesis
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50 models published in the literature
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Model classification
Part 2: Modeling of the Proton Exchange Membrane Fuel Cell
Chapter 6: Model Structural and Functional Approaches
Chapter 7: Stack-Level Modeling
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Electrical domain
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Fluidic domain
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Thermal domain
Chapter 8: Cell-Level Modeling (Membrane-Electrode Assembly, MEA)
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Electrical domain
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Fluidic domain
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Thermal domain
Chapter 9: Individual Layer Level Modeling
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Electrical domain
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Fluidic domain
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Thermal domain
Chapter 10: Finite Element and Finite Volume Approach
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Conservation of mass
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Conservation of momentum
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Conservation of matter
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Conservation of charge
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Conservation of energy
Part 3: 1D Dynamic Model of a Nexa Fuel Cell Stack
Chapter 11: Detailed Nexa Proton Exchange Membrane Fuel Cell Stack Modeling
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Modeling hypotheses
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Modeling in the electrical domain
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Modeling in the fluidic domain
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Thermal domain modeling
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Set of adjustable parameters
Chapter 12: Model Experimental Validation
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Multiphysical model validation with a 1.2 kW fuel cell stack
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Tags: Fei Gao, Benjamin Blunier, Abdellatif Miraoui, Proton Exchange, Membra, ne Fuel, Cells Modeling