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 |