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Fuel cell fundamentals / (Record no. 29646)

MARC details
000 -LEADER
fixed length control field	07198cam a2200337 i 4500
003 - CONTROL NUMBER IDENTIFIER
control field	CUTN
005 - DATE AND TIME OF LATEST TRANSACTION
control field	20190817155449.0
008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION
fixed length control field	150903s2016 nju b 001 0 eng
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number	9781119113805 (cloth : acidfree paper)
041 ## - LANGUAGE CODE
Language	English
082 00 - DEWEY DECIMAL CLASSIFICATION NUMBER
Classification number	621.312429
Edition number	23
Item number	OHA
100 1# - MAIN ENTRY--PERSONAL NAME
Personal name	O'Hayre, Ryan P.,
245 10 - TITLE STATEMENT
Title	Fuel cell fundamentals /
Statement of responsibility, etc	Ryan O'Hayre, Suk-Won Cha, Whitney G. Colella, Fritz B. Prinz.
250 ## - EDITION STATEMENT
Edition statement	Third edition.
260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT)
Place of publication, distribution, etc	Hoboken, New Jersey :
Name of publisher, distributor, etc	John Wiley & Sons Inc.,
Date of publication, distribution, etc	2016.
300 ## - PHYSICAL DESCRIPTION
Extent	xx, 580 pages ;
Dimensions	25 cm
505 ## - FORMATTED CONTENTS NOTE
Contents	Title Page --<br/>Copyright --<br/>Table of Contents --<br/>Dedication --<br/>Preface --<br/>Acknowledgments --<br/>Nomenclature --<br/>Part I: Fuel Cell Principles --<br/>Chapter 1: Introduction --<br/>1.1 What Is a Fuel Cell? --<br/>1.2 A Simple Fuel Cell --<br/>1.3 Fuel Cell Advantages --<br/>1.4 Fuel Cell Disadvantages --<br/>1.5 Fuel Cell Types --<br/>1.6 Basic Fuel Cell Operation --<br/>1.7 Fuel Cell Performance --<br/>1.8 Characterization and Modeling --<br/>1.9 Fuel Cell Technology --<br/>1.10 Fuel Cells and the Environment --<br/>1.11 Chapter Summary --<br/>Chapter Exercises --<br/>Chapter 2: Fuel Cell Thermodynamics --<br/>2.1 Thermodynamics Review --<br/>2.2 Heat Potential of a Fuel: Enthalpy of Reaction --<br/>2.3 Work Potential of a Fuel: Gibbs Free Energy --<br/>2.4 Predicting Reversible Voltage of a Fuel Cell under Non-Standard-State Conditions --<br/>2.5 Fuel Cell Efficiency --<br/>2.6 Thermal and Mass Balances in Fuel Cells --<br/>2.7 Thermodynamics of Reversible Fuel Cells --<br/>2.8 Chapter Summary --<br/>Chapter Exercises --<br/>Chapter 3: Fuel Cell Reaction Kinetics --<br/>3.1 Introduction to Electrode Kinetics --<br/>3.2 Why Charge Transfer Reactions Have an Activation Energy --<br/>3.3 Activation Energy Determines Reaction Rate --<br/>3.4 Calculating Net Rate of a Reaction --<br/>3.5 Rate of Reaction at Equilibrium: Exchange Current Density --<br/>3.6 Potential of a Reaction at Equilibrium: Galvani Potential --<br/>3.7 Potential and Rate: Butler-Volmer Equation --<br/>3.8 Exchange Currents and Electrocatalysis: How to Improve Kinetic Performance --<br/>3.9 Simplified Activation Kinetics: Tafel Equation --<br/>3.10 Different Fuel Cell Reactions Produce Different Kinetics --<br/>3.11 Catalyst-Electrode Design --<br/>3.12 Quantum Mechanics: Framework for Understanding Catalysis in Fuel Cells --<br/>3.13 The Sabatier Principle for Catalyst Selection --<br/>3.14 Connecting the Butler-Volmer and Nernst Equations (Optional) --<br/>3.15 Chapter Summary --<br/>Chapter Exercises. Chapter 4: Fuel Cell Charge Transport --<br/>4.1 Charges Move in Response to Forces --<br/>4.2 Charge Transport Results in a Voltage Loss --<br/>4.3 Characteristics of Fuel Cell Charge Transport Resistance --<br/>4.4 Physical Meaning of Conductivity --<br/>4.5 Review of Fuel Cell Electrolyte Classes --<br/>4.6 More on Diffusivity and Conductivity (Optional) --<br/>4.7 Why Electrical Driving Forces Dominate Charge Transport (Optional) --<br/>4.8 Quantum Mechanics-Based Simulation of Ion Conduction in Oxide Electrolytes (Optional) --<br/>4.9 Chapter Summary --<br/>Chapter Exercises --<br/>Chapter 5: Fuel Cell Mass Transport --<br/>5.1 Transport in Electrode versus Flow Structure --<br/>5.2 Transport in Electrode: Diffusive Transport --<br/>5.3 Transport in Flow Structures: Convective Transport --<br/>5.4 Chapter Summary --<br/>Chapter Exercises --<br/>Chapter 6: Fuel Cell Modeling --<br/>6.1 Putting It All Together: A Basic Fuel Cell Model --<br/>6.2 A 1D Fuel Cell Model --<br/>6.3 Fuel Cell Models Based on Computational Fluid Dynamics (Optional) --<br/>6.4 Chapter Summary --<br/>Chapter Exercises --<br/>Chapter 7: Fuel Cell Characterization --<br/>7.1 What Do We Want to Characterize? --<br/>7.2 Overview of Characterization Techniques --<br/>7.3 In Situ Electrochemical Characterization Techniques --<br/>7.4 Ex Situ Characterization Techniques --<br/>7.5 Chapter Summary --<br/>Chapter Exercises --<br/>Part II: Fuel Cell Technology --<br/>Chapter 8: Overview of Fuel Cell Types --<br/>8.1 Introduction --<br/>8.2 Phosphoric Acid Fuel Cell --<br/>8.3 Polymer Electrolyte Membrane Fuel Cell --<br/>8.4 Alkaline Fuel Cell --<br/>8.5 Molten Carbonate Fuel Cell --<br/>8.6 Solid-Oxide Fuel Cell --<br/>8.7 Other Fuel Cells --<br/>8.8 Summary Comparison --<br/>8.9 Chapter Summary --<br/>Chapter Exercises --<br/>Chapter 9: PEMFC and SOFC Materials --<br/>9.1 PEMFC Electrolyte Materials --<br/>9.2 PEMFC Electrode/Catalyst Materials --<br/>9.3 SOFC Electrolyte Materials --<br/>9.4 SOFC Electrode/Catalyst Materials. 9.5 Material Stability, Durability, and Lifetime --<br/>9.6 Chapter Summary --<br/>Chapter Exercises --<br/>Chapter 10: Overview of Fuel Cell Systems --<br/>10.1 Fuel Cell Subsystem --<br/>10.2 Thermal Management Subsystem --<br/>10.3 Fuel Delivery/Processing Subsystem --<br/>10.4 Power Electronics Subsystem --<br/>10.5 Case Study of Fuel Cell System Design: Stationary Combined Heat and Power Systems --<br/>10.6 Case Study of Fuel Cell System Design: Sizing a Portable Fuel Cell --<br/>10.7 Chapter Summary --<br/>Chapter Exercises --<br/>Chapter 11: Fuel Processing Subsystem Design --<br/>11.1 Fuel Reforming Overview --<br/>11.2 Water Gas Shift Reactors --<br/>11.3 Carbon Monoxide Clean-Up --<br/>11.4 Reformer and Processor Efficiency Losses --<br/>11.5 Reactor Design for Fuel Reformers and Processors --<br/>11.6 Chapter Summary --<br/>Chapter Exercises --<br/>Chapter 12: Thermal Management Subsystem Design --<br/>12.1 Overview of Pinch Point Analysis Steps --<br/>12.2 Chapter Summary --<br/>Chapter Exercises --<br/>Chapter 13: Fuel Cell System Design --<br/>13.1 Fuel Cell Design Via Computational Fluid Dynamics --<br/>13.2 Fuel Cell System Design: A Case Study --<br/>13.3 Chapter Summary --<br/>Chapter Exercises --<br/>Chapter 14: Environmental Impact of Fuel Cells --<br/>14.1 Life Cycle Assessment --<br/>14.2 Important Emissions for LCA --<br/>14.3 Emissions Related to Global Warming --<br/>14.4 Emissions Related to Air Pollution --<br/>14.5 Analyzing Entire Scenarios with LCA --<br/>14.6 Chapter Summary --<br/>Chapter Exercises --<br/>Appendix A: Constants and Conversions --<br/>Appendix B: Thermodynamic Data --<br/>Appendix C: Standard Electrode Potentials at 25°C --<br/>Appendix D: Quantum Mechanics --<br/>D.1 Atomic Orbitals --<br/>D.2 Postulates of Quantum Mechanics --<br/>D.3 One-Dimensional Electron Gas --<br/>D.4 Analogy to Column Buckling --<br/>D.5 Hydrogen Atom --<br/>D.6 Multielectron Systems --<br/>D.7 Density Functional Theory --<br/>Appendix E: Periodic Table of the Elements --<br/>Appendix F: Suggested Further Reading. Appendix G: Important Equations --<br/>Appendix H: Answers to Selected Chapter Exercises --<br/>Bibliography --<br/>Index --<br/>End User License Agreement.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element	Fuel cells
700 1# - ADDED ENTRY--PERSONAL NAME
Personal name	Cha, Suk-Won,
700 1# - ADDED ENTRY--PERSONAL NAME
Personal name	Colella, Whitney G.
700 1# - ADDED ENTRY--PERSONAL NAME
Personal name	Prinz, F. B.
942 ## - ADDED ENTRY ELEMENTS (KOHA)
Source of classification or shelving scheme	Dewey Decimal Classification
Koha item type	General Books
100 1# - MAIN ENTRY--PERSONAL NAME
Relator term	author.
504 ## - BIBLIOGRAPHY, ETC. NOTE
Bibliography, etc	Includes bibliographical references (pages 555-564) index.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Form subdivision	Textbooks.
700 1# - ADDED ENTRY--PERSONAL NAME
Dates associated with a name	1971-
775 08 - OTHER EDITION ENTRY
Display text	Revision of:
Title	Fuel cell fundamentals / Ryan O'Hayre ... [et al.]
Edition	2nd ed.
Place, publisher, and date of publication	Hoboken, N.J. : John Wiley & Sons, c2009.
776 08 - ADDITIONAL PHYSICAL FORM ENTRY
Display text	Online version:
Main entry heading	O'Hayre, Ryan P.
Title	Fuel cell fundamentals
Place, publisher, and date of publication	Hoboken, New Jersey : John Wiley & Sons Inc., [2016]
International Standard Book Number	9781119114154
Record control number	(DLC) 2015035140
906 ## - LOCAL DATA ELEMENT F, LDF (RLIN)
a	7
b	cbc
c	orignew
d	1
e	ecip
f	20
g	y-gencatlg

Holdings
Withdrawn status	Lost status	Source of classification or shelving scheme	Damaged status	Not for loan	Collection code	Home library	Location	Shelving location	Date of Cataloging	Total Checkouts	Full call number	Barcode	Date last seen	Price effective from	Koha item type
		Dewey Decimal Classification		Not For Loan	Reference	CUTN Central Library	CUTN Central Library	Reference	17/08/2019		621.312429 OHA	37468	30/09/2019	17/08/2019	Reference Books

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