caitokyo 2007-12-25 13:16
Handbook of Fuel Cells: Fundamentals, Technology, Applications, 4-volume set
Handbook of Fuel Cells: Fundamentals, Technology, Applications, 4-volume set�t�k�L$~%w�W
Wolf Vielstich (Editor), Arnold Lamm (Editor), Hubert Gasteiger (Editor)�F�K�}9X q�P�g
ISBN: 978-0-471-49926-8
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Hardcover"f�K1{&E(r'J
2690 pages
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May 2003
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Wiley List Price: US $2,300.00�q�} C7j6_2v:s�f�j&C
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This four volume set brings together for the first time in a single reference work the fundamentals, principles and the current state-of-the-art in fuel cells. Its publication reflects the increasing importance of and the rapidly growing rate of research into alternative, clean sources of energy.
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With internationally renowned Editors, International Advisory Board members, and Contributors from academia and industry, it guides the reader from the foundations and fundamental principles through to the latest technology and cutting-edge applications, ensuring a logical, consistent approach to the subject.�p
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The Handbook is divided into three main themes, covered in four volumes:
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* Volume 1: "Fundamentals and Survey of Systems""c6Q�p�{5E�g�i0P
* Volume 2: "Fuel Cell Electrocatalysis"
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* Volumes 3 and 4: "Fuel Cell Technology and Applications"
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Volume 1, "Fundamentals and Survey of Systems", provides the necessary backg round information on fuel cells, including the fundamental principles such as the thermodyamics and kinetics of fuel cell reactions, mass and heat transfer in fuel cells, and an overview of the key principles of the most important types of fuel cell, and their related systems and applications.
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Volume 2, "Fuel Cell Electrocatalysis", is concerned with the most important basic phenomenon of fuel cell electrodes, electrocatalysis. It includes an introduction to the topic, and a detailed account of the theory. A number of the key practical methods used to study this phenomenon are discussed, as are a number of the key surface reactions. Finally, a number of other related topics associated with energy conversion are discussed.,?�f9j�m#n�h�d
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Volumes 3 and 4, "Fuel Cell Technology and Applications" open with an overview of a range of sustainable energy supplies for fuel cell development. The key issue of fuel storage is considered in detail, before a detailed discussion of the most important types of fuel cells and their applications is presented. Among these, polymer electrolyte membrane fuel cell systems, alkaline fuel cell modules and systems, phosphoric acid fuel cells, direct methanol fuel cells, molten carbonate fuel cells and solid oxide fuel cells are covered in depth. The use of fuel cells in a range of systems is then considered, including portable systems, propulsion systems and electric utility systems. In addition to domestic and industrial systems, use of fuel cells in such novel environments as the space shuttle and submarines is addressed. Finally, Volume 4 closes with a discussion of the future prospects of fuel cell systems.�`7r�L�z j�S
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Comprising approximately 170 articles by more than 200 contributors, "The Handbook of Fuel Cells: Fundamentals, Technology and Applications", will be an invaluable source of reference for all those working directly in this important and dynamic field, for electrochemists, and for scientists, engineers and policy-makers involved in the quest for clean and sustainable energy sources. )?�{2{�t�Y�N(u!}
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VOLUME 1: FUNDAMENTALS AND SURVEY OF SYSTEMS.
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Contributors to Volume 1.�I#B&b�W�m�k6k�o
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Foreword.
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Abbreviations and Acronyms.
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Part 1: Thermodynamics and kinetics of fuel cell reactions.*\�X�h�O'|'w�Y�\
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Part 2: Mass transfer in fuel cells.;U
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Part 3: Heat transfer in fuel cells.)A�j9~�M�d�Y"f4y�X�l�R
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Part 4: Fuel cell principles, systems and applications.
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Contents for Volumes 2, 3 and 4.
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Subject Index.
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VOLUME 2: ELECTROCATALYSIS.
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Contributors to Volume 2.2O2n�d�E�@'K�O,Y+m
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Abbreviations and Acronyms.
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Part 1: Introduction.�A%H4P#e0h"k�y
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Part 2: Theory of electrocatalysis.
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Part 3: Methods in electrocatalysis.
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Part 4: The hydrogen oxidation/evolution reaction.
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Part 5: The oxygen reduction/evolution reaction.-j+i�b�~-I$r0f0S
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Part 6: Oxidation of small organic molecules.
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Part 7: Other energy conversion related topics.
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Contents for Volumes 1, 3 and 4.�T)W9i�Q�M�M�q4T5q![
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Subject Index.
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VOLUME 3: FUEL CELL TECHNOLOGY AND APPLICATIONS: PART 1.$M�u�R&A-C
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Contributors to Volumes 3 and 4.
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Foreword.�c�f+U6i2K
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Preface.
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Abbreviations and Acronyms.
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Part 1: Sustainable energy supply.
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Part 2: Hydrogen storage and hydrogen generation. �o�v�p�w0T5K�u�}
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Development prospects for hydrogen storage.
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Chemical hydrogen storage devices.
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Reforming of methanol and fuel processor development.
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Fuel processing from hydrocarbons to hydrogen.
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Well-to-wheel efficiencies.�[
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Hydrogen safety, codes and standards.�[�n;`
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Part 3: Polymer electrolyte membrane fuel cell systems (PEMFC).
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Bipolar plate materials and flow field design.
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Membrane materials.�D'L�t.C'k4j5i
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Electro-catalysts.
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Membrane-electrode-assembly (MEA).
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State-of-the-art performance and durability.
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VOLUME 4: FUEL CELL TECHNOLOGY AND APPLICATIONS, PART 2.�F�u5r9{&R-_
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Contributors to Volume 3 and 4.-V�u�`9L�M,?�t2H
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Foreword.
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Preface.
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Part 3: Polymer electrolyte membrane fuel cells and systems (PEMFC) (Continued from previous volume).
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System design and system-specific aspects.
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Air-supply components.
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Applications based on PEM-technology.�v)X+[8h�e4\(K
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Part 4: Alkaline fuel cells and systems (AFC).
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Part 5: Phosphoric acid fuel cells and systems (PAFC).
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Part 6: Direct methanol fuel cells and systems (DMFC).
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Part 7: Molten carbonate fuel cells and systems (MCFC).(A:l�x�a-U�G�h2[�_ f�H
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Part 8: Solid oxide fuel cells and systems (SOFC).�z�@
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Materials./Y w�O8[ i�P�M+k%o5z
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Stack and system design.
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New concepts.+h*I&]�L
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Part 9: Primary and secondary metal/air cells.
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Part 10: Portable fuel cell systems.�v*y�e�C4?�I7R'V�G
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Part 11: Current fuel cell propulsion systems.�_�w"c"e�^6o)Y�s
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PEM fuel cell systems for cars/buses.
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PEM fuel cell systems for submarines.
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Part 12: Electric utility fuel cell systems.
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Part 13: Future prospects of fuel cell systems.(M�m
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Contents for Volumes 1 and 2. ]�S�^�Y-i�s$[�_
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Subject Index.
punkx 2008-05-27 09:47
我出重金200赠送板上朋友能找到此书者。谢谢
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[[i] 本帖最后由 punkx 于 2008-05-27 09:57 编辑 [/i]]
punkx 2008-05-30 10:11
回复 2# 的帖子
没有朋友主动请缨啊。呵呵
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我再加200金。共400金奖励此书的全文下载提供者。这本可以说上是一本FC大全。
happyboy2008 2008-05-31 20:15
很难,我这里只有纸版的!
punkx 2008-06-01 09:53
回复 4# 的帖子
如果朋友可以辛苦点,我们可以给nanost申请几个vip作为奖励。谢谢。
biyu 2008-06-01 10:28
回复 4# 的帖子
扫描上来奖励你5个vip
happyboy2008 2008-06-04 13:43
太多了,很快我就会离开现在的这个单位了,没有太多时间和精力。在网上能够找到这几章,很不系统,需要的话我可以发上来。实在是对不住大家!
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14 Hydrogen/oxygen (air) fuel cells with alkaline electrolytes Volume 1, Part 4, pp 267–280/U
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Ammonia crackers Volume 3, Part 2, pp 121–1277^*z%w�D�g:t(C
Stack materials and design Volume 4, Part 4, pp 765–773%K%@&]+z*X
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A comparison between the alkaline fuel cell (AFC) and the polymer electrolyte membrane (PEM) fuel cell Volume 4, Part 4, pp 789–793
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Alkaline methanol/air power devices Volume 4, Part 9, pp 1125–1129.I�|�R5v4{6[�N K
Automotive development Volume 4, Part 11, pp 1217–1223
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Combinatorial catalyst development methods Volume 2, Part 3, pp 334–347
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Two-phase flow and transport Volume 3, Part 3, pp 337–347
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Methanol and CO electrooxidation pp.603-613
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Catalyst coated composite membranes Volume 3, Part 3, pp 566–575
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System design for vehicle applications: Daimler Chrysler/[�_�j9N)s�H
Hy.Power—A technology platform combining a fuel cell system and a supercapacitor 7l n�K(h*C
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Volume 4, Part 11, pp 1184–1198#g7V�O�R�i$u
Life-cycle analysis of fuel cell system components Volume 4, Part 13, pp 1293–1317
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Chapter 21 Biochemical fuel cells Diffusion media materials and characterisation
happyboy2008 2008-06-04 13:51
content:
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VOLUME 1: FUNDAMENTALS AND SURVEY OF SYSTEMS
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Part 1: Thermodynamics and kinetics of fuel cell reactions �}
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1 The components of an electrochemical cell
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2 The electrode-electrolyte interface
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3 Thermodynamics of electrodes and cells .M�}�r�K�V
4 Ideal and effective efficiencies of cell reactions and comparison to carnot cycles �^�z�|1\:Z u�I!^
5 Kinetics of electrochemical reactions
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6 Introduction to fuel-cell types 'F�l�h�l8v*\
Part 2: Mass transfer in fuel cells �~.A5}/F;G1m�D�x#I�M
7 Mass transfer at two-phase and three-phase interfaces �J![�x�l&K
8 Mass transfer in flow fields
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Part 3: Heat transfer in fuel cells !o:w�T�G�^"p
9 Low temperature fuel cells
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10 High temperature fuel cells
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11 Air-cooled PEM fuel cells
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Part 4: Fuel cell principles, systems and applications 2i�|)p2s7n�G�Z2p&[$v)T
12 General scientific background before and during the beginning of fuel cell research �P�a�L�P5c�f�l!J,j
13 History of high temperature fuel cell development #q�R!X,e"J�c�?'F
14 Hydrogen/oxygen (air) fuel cells with alkaline electrolytes
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15 Hydrazine fuel cells �V�j�e f�k$m U:J
16 Phosphoric acid electrolyte fuel cells 3?2m3L�O G�K+b7O�|�{
17 Aqueous carbonate electrolyte fuel cells
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18 Direct methanol fuel cells (DMFC
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19 Other direct-alcohol fuel cells �V�T!G)g�N�N M0q
20 Solid oxide fuel cells (SOFC)
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21 Biochemical fuel cells
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22 Metal/air batteries: The zinc/air case �X1Z�R�X:y2i
23 Seawater aluminium/air cells
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24 Energy storage via electrolysis/fuel cells 1L!q
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VOLUME 2: ELECTROCATALYSIS
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Part 1: Introduction
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1 What is electrocatalysis? -n#U1M*l�g#U�w7D
2 The role of adsorption
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3 Understanding electrocatalysis: From reaction steps to first-principles calculations #i�F/g
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4 Electrode potential as parameter 8Q!|*C p+s1h�]
5 Catalysis by UPD metals
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6 Outer sphere reactions �O'd�{�n9V.K�z!C)E
7 The NEMCA effect �v!v�M(H�W!h%E�S�g�P
Part 2: Theory of electrocatalysis
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8 Electrode potential and double layer ;p�r:X�G0V*C�Z
9 Reaction mechanism and rate determining steps
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10 Adsorption - Volcano curve
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11 Theorectical aspects of some prototypical fuel cell reactions
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12 Theory of electrochemical outer sphere reactions
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13 Theory of the NEMCA effect
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Part 3: Methods in electrocatalysis
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14 Cyclic voltammetry .^
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15 Product analysis �c.Z�?�t
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16 Vibrational spectroscopy
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17 Electrochemical impedance spectroscopy �Q+v!F+|�e!H�d4P
18 Ex-situ surface preparation and analysis: Transfer between UHV and electrochemical cell
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19 Structure sensitive methods: AFM/STM
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20 EXAFS, XANES, SASXS
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21 Normalization of porous active surfaces
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22 Rotating thin-film method for supported catalysts �}'Q�?�~.{�T�X
23 Combinatorial catalyst development methods
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24 Numerical simulations of electrocatalytic processes )]6D3\5b�J
Part 4: The hydrogen oxidation/evolution reaction
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25 Reaction mechanisms of the H2 oxidation/evolution reaction �n8a&B�g5u�d9} d5z
26 The hydrogen electrode reaction and the electrooxidation of CO and H2/CO mixtures on well-characterized Pt and Pt-bimetallic surfaces
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27 Oxidation reactions in high-temperature fuel cells
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28 New CO-tolerant catalyst concepts
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29 Hydrogen evolution reaction
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Part 5: The oxygen reduction/evolution reaction
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30 Reaction mechanisms of the O2 reduction/evolution reaction
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31 Oxygen reduction reaction on smooth single crystal electrodes
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32 O2 reduction reaction on the Pt/polymerelectrolyte interface �y�U�t�}0b'S
33 Fundamental kinetics/transport processes in MEAs �l(^
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34 O2 reduction and structure-related parameters for supported catalysts
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35 Oxide-based ORR catalysts %h�G�w"[ |#}
36 Chevrel phases and chalcogenides
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37 Macrocycles
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38 Poisons for the O2 reduction reaction
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39 O2-reduction at high temperature: MCFC
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40 O2-reduction at high temperatures: SOFC �A;}5^4?7z�w�W:B
Part 6: Oxidation of small organic molecules
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41 Methanol and CO electrooxidation.b�M
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42 Formic acid oxidation �m�p5x,_,L6R9C�C
43 Methanol and formic acid oxidation on ad-metal modified electrodes7S5u�D:E${�Q�Y�{
44 Methanol effects on the O2 reduction reaction
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45 Oxidation of C2 molecules .u2y8l+W�p.`�_�_
46 Oscillations and other dynamic instabilities �\�o m�D�T�~:d�`�a�X
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47 Hydrogenation reactions 6P�e*{"D�f8T3]4x
48 CO2-reduction, catalyzed by metal electrodes �N�?�p�`&G�z�I�}
49 Electrochemical supercapacitors and their complementarity to fuel cells and batteries
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50 Technical characteristics of PEM electrochemical capacitors 5E2E;p�S
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VOLUME 3: FUEL CELL TECHNOLOGY AND APPLICATIONS: PART 1 B/w t#X�L/v�O0u
Part 1: Sustainable energy supply
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1 Alternative fuels and prospects - Overview 0j4D&c-U�C:g
2 Natural gas for power generation and the automotive market �X�k�o�R+U�C/U�k
3 Methanol from fossil and renewable resources
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4 Synthetic hydrocarbons as long-term fuel option 1X8M�T1s6s7p"p+a;j
5 Solar and wind energy coupled with electrolysis and fuel cells
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Part 2: Hydrogen storage and hydrogen generation 8G;p�]4b�V7q�Y�O
Development prospects for hydrogen storage !R
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6 High pressure storage A�s0o2D
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7 Liquid hydrogen technology for vehicles �Y�f w5a1{,P
8 Hydride storage
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Chemical hydrogen storage devices
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9 Aqueous borohydride solutions
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10 Ammonia crackers n"I!t�g�p5s�?;w0j1T
Reforming of methanol and fuel processor development
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11 Catalyst development and kinetics for methanol fuel processing �i
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12 Methanol reformer design considerations 2D0l
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13 Mixed POX/steam-reforming reactor design considerations
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Fuel processing from hydrocarbons to hydrogen
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14 Steam reforming, ATR, partial oxidation: catalysts and reaction engineering
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15 Sulfur removal methods �{,t�h�q�^5x
16 Catalyst development for water-gas shift
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17 Membrane reactor concepts &L
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18 PROX catalysts
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19 Autothermal reforming
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20 Alternative design possibilities for integrated fuel processors �g2W-x
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Well-to-wheel efficiencies
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21 Well-to-wheel efficiencies of different fuel choices
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Hydrogen safety, codes and standards �t�e&Z�b%K�o�b
22 Hydrogen safety, codes and standards for vehicles and stationary applications 5S�n9l�i%V/B�[
Part 3: Polymer electrolyte membrane fuel cell systems (PEMFC)
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Bipolar plate materials and flow field design
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23 Basic materials corrosion issues
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24 Performance and durability of bipolar plate materials �F�m/C'z�H�y
25 Metal bipolar plates and coatings
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26 Graphite-based bipolar plates
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27 Serpentine flow field design
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28 Interdigited flow field design !D�F�b&h�N�O;S8f�v
29 Two-phase flow and transport
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Membrane materials
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30 Perfluorinated membranes
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31 First principles modelling of sulfonic acid based ionomer membranes �[�r)R�[�@3a&c
32 Composite perfluorinate membranes %b�B�t"S�T*`.s2h
33 Hydrocarbon membranes
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34 High-temperature membranes
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35 Inorganic/organic composite membranes
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36 Membrane/electrode additives for low-humidification operation
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37 Pt alloys as oxygen reduction catalysts
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38 High dispersion catalysts including novel carbon supports
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39 Development of CO-tolerant catalysts
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41 Precious metal supply requirements i�G�[*q
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42 Diffusion media materials and characterisation %o�u.q�W�u�L
43 Principles of MEA preparation -L�`�C.^
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44 Catalyst coated composite membranes +J�g"[)L:B)H
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45 Novel catalysts, catalysts support and catalysts coated membrane methods
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46 Beginning-of-life MEA performance - Efficiency loss contributions ,v�F�r"h)s�M�x�b
47 Durability
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48 Effect of ionic contaminants �E(H
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49 Mechanisms of membrane degradation
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50 Reliability issues and voltage degradation
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VOLUME 4: FUEL CELL TECHNOLOGY AND APPLICATIONS: PART 2 �L7g!i�a+`/[3C
Part 3: Polymer electrolyte membrane fuel cells and systems (PEMFC) cont…d
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System design and system-specific aspects ,Q
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51 System design for stationary power generation
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52 System design for vehicle applications: DaimlerChrylser
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53 System design for vehicle applications: GM/Opel !|2n'?�J�s8\�q�l%p�]!B1P�X
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54 Air-supply components �Q6F Y�C)A,t�V�s�s
Applications based on PEM-technology
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55 Special applications using PEM-technology
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56 Stack materials and design
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57 System design and applications
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58 A comparison between the alkaline fuel cell (AFC) and the polymer electrolyte membrane (PEM) fuel cell
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59 Stack materials and stack design $u�?!J;c.P%d9y,h0h
60 Catalyst studies and coating technologies "_2Z�_�]�t�J,~�G
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61 Experience with 200kW PC25 fuel cell power plant �f�d(K�D�g�S
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62 Transport/kinetic limitations and efficiency losses
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63 New materials for DMFC MEAs
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64 System design for transport applications 2o�A.u�A�B�@*f�~7c�D�L
65 DMFC system design for portable applications �e3S*f�Q�B*_
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Part 7: Molten carbonate fuel cells and systems (MCFC) ,q�p�v�I4R#l:v�@2B%x
66 Stack material and stack design
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67 Electrolyte and material challenges
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68 System design
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69 Durability
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Materials
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70 Current electrolytes and catalysts 6M�Z
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71 Low temperature electrolytes and catalysts
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72 MEA/cell preparation methods: Europe/USA
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73 MEA/cell preparation methods: Japan/Asia
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74 Interconnects
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75 Internal reforming
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76 System design �C2e)J
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New concepts 5v9Q�G�^�A�?
77 New microtube concepts �G6D
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78 Direct hydrocarbon SOFCs 4X9g
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79 Novel elctrolytes operating at 400-600 C%i�v�d k6y
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Part 9: Primary and secondary metal/air cells �u(I�f#m%g;V9K#s
80 Alkaline methanol/air power devices
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Part 10: Portable fuel cell systems
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81 Portable direct methanol fuel cell systems
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82 Portable PEM systems 83 Small-szie PEM systems for special applications �w*[�V�b+i�D�b�a%?
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PEM fuel cell systems for cars/buses
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84 DaimlerChrylser fuel cell activities �x"X�S�X
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85 General Motors/OPEL fuel cell activities - Driving towards a successful future
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86 Honda fuel cell activities �a+A�|�}*Z�e�|2]
87 Hy.Power - A technology platform combining a fuel cell system and a supercapacitor
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PEM fuel cell systems for submarines �?(a�a�C'I5V;{�~4N�]
88 H2/O2-PEM-fuel cell module for an air independent propulsion system in a submarine
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AFC fuel cell systems /R H�z�m1N�O*~
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89 Automotive development )v+}�Z�v2}
90 Space-shuttle fuel cell "B�X�`%C�k�c�L�W
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91 PEMFC fuel cell systems�_�A�S�t:?�X�k
92 MCFC fuel cell systems
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93 SOFC fuel cell systems ${�y�d$W�p0b�|
Part 13: Future prospects of fuel cell systems
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94 Life-cycle analysis of fuel cell system components U'o#_�j7a(l
95 Market concepts, competing technologies and cost challenges for automotive and stationary applications "h
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96 Potential economic impact of fuel cell technologies ;{;_/r�`+F3{�x�b
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希望大家能够找齐。
punkx 2008-06-05 07:58
回复 8# 的帖子
上传上来,或者公布其下载链接,网址之类的话,我们都行动起来,慢慢补齐吧。
happyboy2008 2008-06-12 08:20
14 Hydrogen/oxygen (air) fuel cells with alkaline electrolytes Volume 1, Part 4, pp 267–280
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Ammonia crackers Volume 3, Part 2, pp 121–127�_"?�d*^*x�m
Stack materials and design Volume 4, Part 4, pp 765–773'_.X�B�S�U�F�J0K
A comparison between the alkaline fuel cell (AFC) and the polymer electrolyte membrane (PEM) fuel cell Volume 4, Part 4, pp 789–793
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Alkaline methanol/air power devices Volume 4, Part 9, pp 1125–1129'[,k L�})r#Z9e
Automotive development Volume 4, Part 11, pp 1217–1223
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Combinatorial catalyst development methods Volume 2, Part 3, pp 334–347
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Two-phase flow and transport Volume 3, Part 3, pp 337–347�K�Q,n�u$a�M8F�w�K
Methanol and CO electrooxidation pp.603-613'W�\1_5Y�y8a
Catalyst coated composite membranes Volume 3, Part 3, pp 566–575�x8~�y�Z'? @
System design for vehicle applications: Daimler Chrysler
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Hy.Power—A technology platform combining a fuel cell system and a supercapacitor
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Volume 4, Part 11, pp 1184–1198
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Life-cycle analysis of fuel cell system components Volume 4, Part 13, pp 1293–1317�m+m�}9t�Z&P
Chapter 21 Biochemical fuel cells Diffusion media materials and characterisation
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这几章我放在网盘了,其它的大家找齐吧
�o8^ p�p�Z�g'K,{
**** Hidden Message *****�q!k'x7b�I�B*{#L
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[[i] 本帖最后由 apcvd 于 2008-07-02 07:25 编辑 [/i]]
happyboy2008 2008-06-12 08:56
第一次用网盘发东西,不知道好用不?不好用,给我发信息,我再传!比较难弄全,从去年就开始收集,就收集到这几章的电子版的。
punkx 2008-06-16 22:34
回复 11# 的帖子
这些你都是从哪里收集的,:D
happyboy2008 2008-06-17 08:38
原来在燃料电池综合论坛上,现在好像停了!
chenshuuu 2008-06-20 23:52
很好的主题,大家共同努力
happyboy2008 2008-06-21 10:50
再上传一章
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Chapter 87
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Hy.Power—A technology platform combining a fuel cell system and a supercapacitor
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从一个作者主页下载的。�_ i�U!b�A
[url]http://www.91files.com/?CGJGA2CNCQS4DT9SJTR0[/url]
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不好意思,好像重复了。�P�U�n�p�F�Q-w�u
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[[i] 本帖最后由 happyboy2008 于 2008-06-21 10:53 编辑 [/i]]
caitokyo 2008-07-02 22:10
能学习一下最好了:handshake :handshake
tysoe 2008-08-01 18:51
如果真的能找齐,真的是非常了不起的一件事情。因为现在各大论坛,至今还有任何一个关于这本书的连接呢。 期待。。支持。。
meisen 2008-08-01 20:15
Thanks for sharing.
huhu001 2008-08-02 00:53
非常感谢能有这么好的东东!
carothers 2008-08-07 07:00
以前在燃料電池綜合論壇有但印象中不完整看過,大家可以互相幫忙收集。