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008    170628s2017    enka    ob    001 0 eng d 
019    986538707|a986603471|a986838757|a1311345490 
020    9780128111338 
020    012811133X 
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082 04 665.8/1 
082 04 665.8/1|223 
099    eBook O'Reilly for Public Libraries 
245 00 Hydrogen economy :|bsupply chain, life cycle analysis and 
       energy transition for sustainability /|cedited by Antonio 
       Scipioni, Alessandro Manzardo, Jingzheng Ren.|h[O'Reilly 
       electronic resource] 
264  1 London, United Kingdom ;|aSan Diego, CA :|bAcademic Press,
       |c[2017] 
264  4 |c©2017 
300    1 online resource (1 volume) :|billustrations 
336    text|btxt|2rdacontent 
337    computer|bc|2rdamedia 
338    online resource|bcr|2rdacarrier 
504    Includes bibliographical references and index. 
505 0  Front Cover; Hydrogen Economy; Copyright Page; Contents; 
       List of Contributors; 1 The Role of Hydrogen Energy: 
       Strengths, Weaknesses, Opportunities, and Threats; 1 
       Introduction; 2 SWOT Analysis of Hydrogen Economy in 
       China; 2.1 SWOT Method; 2.2 Application of SWOT Method in 
       Analyzing Hydrogen Economy in China; 2.2.1 Strengths; 
       Abundant Resource Reserves; Great Development Potential; 
       Benefits for Environmental Protection; 2.2.2 Weaknesses; 
       High Cost; Lack of Key Technologies; Incomplete Hydrogen 
       Infrastructure; 2.2.3 Opportunities; Government Support; 
       High Social Acceptability. 
505 8  Deepened Cooperation2.2.4 Threats; Deficiency of 
       Investment Channels; Competition with Other Renewable 
       Resources; Unconfirmed Market Potential; 3 Strategy 
       Prioritization; 3.1 Fuzzy Goal Programing of the MCDM 
       Method; 3.2 Results and Discussion; 4 Conclusion; 
       Acknowledgments; References; 2 Introduction of Hydrogen 
       Routines; 1 Introduction; 2 Hydrogen Production Routes 
       From Fossil Fuels; 2.1 Hydrogen Production Routes From 
       Natural Gas; 2.1.1 Reforming Routes; Steam-Methane 
       Reforming (SMR); Partial Oxidation (POX); Autothermal 
       Reforming (ATR); 2.1.2 Pyrolysis. 
505 8  2.2 Hydrogen Production Routes From Oil2.3 Hydrogen 
       Production Route From Coal; 2.3.1 Gasification; 
       Gasification Technologies; Underground Coal Gasification; 
       3 Hydrogen Production Routes From Nuclear Energy; 3.1 
       Thermochemical Water Splitting Cycles; 3.2 High 
       Temperature (Steam) Electrolysis; 4 Hydrogen Routes From 
       Renewable Energy; 4.1 Hydrogen Route From Wind Energy; 
       4.1.1 Water Electrolysis by Wind Energy; Solid Polymer 
       Electrolyzer; Liquid Electrolyzer; 4.2 Hydrogen Production
       Routes From Solar Energy; 4.2.1 Water Electrolysis by 
       Solar Energy; 4.2.2 Photocatalysis. 
505 8  4.2.3 Thermochemical RoutesConventional Thermolysis; 
       Thermochemical Water Splitting Cycles; 4.2.4 
       Photobiological; 4.3 Hydrogen Production Routes From 
       Bioenergy; 4.3.1 Thermochemical Routes; Pyrolysis; 
       Gasification; Supercritical Water Gasification (SCWG); 
       4.3.2 Biological Routes; Biophotolysis Routes; 
       Fermentation Routes; References; 3 Critical Factors and 
       Cause-Effect Analysis for Enhancing the Sustainability of 
       Hydrogen Supply Chain; 1 Introduction; 2 Criteria for the 
       Design of Sustainable Hydrogen Supply Chain; 2.1 Economic 
       Aspect; 2.1.1 Facility Capital Cost. 
505 8  2.1.2 Facility Operation and Maintenance Costs2.1.3 
       Feedstock Cost; 2.1.4 Transportation Capital Cost; 2.1.5 
       Transportation Operation and Maintenance Costs; 2.1.6 
       Primary Energy Source Cost; 2.1.7 Storage Operation Cost; 
       2.1.8 Net Present Value; 2.1.9 Internal Rate of Return; 
       2.1.10 Market Share; 2.1.11 Service Life; 2.2 
       Technological Aspect; 2.2.1 Technological Dependency; 
       2.2.2 Reliability of Technology; 2.2.3 Stability of 
       Supply; 2.2.4 Technological Maturity; 2.2.5 Technology 
       Development Potential; 2.2.6 Domestic Technological 
       Ability; 2.2.7 Exergy Efficiency. 
520    This book explores the challenges for the transition into 
       a sustainable hydrogen economy. In this book, experts from
       various academic backgrounds discuss the tools and 
       methodologies for the analysis, planning, design and 
       optimization of hydrogen supply chains. They examine the 
       available technologies for hydrogen production, storage, 
       transport, distribution and energy conversion. 
588 0  Online resource; title from title page (viewed June 26, 
       2017). 
590    O'Reilly|bO'Reilly Online Learning: Academic/Public 
       Library Edition 
650  0 Hydrogen as fuel. 
650  0 Hydrogen industry. 
650  6 Hydrogène|xIndustrie. 
650  6 Hydrogène (Combustible) 
650  7 Hydrogen as fuel|2fast 
650  7 Hydrogen industry|2fast 
700 1  Scipioni, Antonio,|eeditor. 
700 1  Manzardo, Alessandro,|eeditor. 
700 1  Ren, Jingzheng,|eeditor. 
776 08 |iPrint version:|tHydrogen economy.|d©2017|z9780128111321
       |z0128111321|w(OCoLC)974699005 
856 40 |uhttps://ezproxy.naperville-lib.org/login?url=https://
       learning.oreilly.com/library/view/~/9780128111338/?ar
       |zAvailable on O'Reilly for Public Libraries 
938    ProQuest Ebook Central|bEBLB|nEBL4855895 
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938    Gale Cengage Learning|bGVRL|nGVRL09DK 
938    ProQuest MyiLibrary Digital eBook Collection|bIDEB
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