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녹색 수소 생산: 전해조 시장 2021-2031
Green Hydrogen Production: Electrolyzer Markets 2021-2031
◇발행처: IDT    ◇발행일: 2021년 03월   ◇가격: $5,995[PDF]    ◇페이지수: 166 Slides쪽   
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1. EXECUTIVE SUMMARY
    1.1. The new hydrogen hype needs economic support
    1.2. Main hydrogen users and future adopters
    1.3. Electrolyzer Systems Overview
    1.4. Electrolyzer systems comparison - Operating parameters
    1.5. PEMEL-AWE Efficiency trend
    1.6. PROS and CONS of AWE and PEMEL systems
    1.7. SOEL systems: a substitute for AWE?
    1.8. Electrolyzer Market Overview
    1.9. Hydrogen companies in the world
    1.10. Global electrolyzer players
    1.11. Downstream electrolyzer component vendors
    1.12. Electrolyzer Market Forecast 2021-2031
    1.13. Forecast Assumption
    1.14. Future trend of the electrolyzer market
2. INTRODUCTION
    2.1.1. Introduction to hydrogen and electrolyzer systems
    2.2. The Hydrogen Economy
        2.2.1. What is a Hydrogen Economy?
        2.2.2. The Hydrogen Economy: Overview
        2.2.3. Have we found the Chicken and the Egg?
        2.2.4. How Green H2 production will increase RES installations
        2.2.5. Hydrogen Economy Development Issues
        2.2.6. Why not a "Battery Economy"?
        2.2.7. What about BEV and FCEV?
        2.2.8. BEV and FCEV Efficiency Comparison
        2.2.9. When we will see the hydrogen economy
    2.3. Carbon Pricing
        2.3.1. Where will the hydrogen economy begin?
        2.3.2. Carbon pricing
        2.3.3. Carbon pricing across the world
        2.3.4. Challenges with carbon pricing
        2.3.5. Carbon pricing in the European Union
        2.3.6. Has the EU ETS had an impact?
        2.3.7. CO2 cost impact on Steel industry
        2.3.8. CO2 emissions comparison
    2.4. Hydrogen End Users
        2.4.1. Hydrogen End Users Analysis
        2.4.2. IDTechEx Hydrogen consumption forecast: Ammonia
        2.4.3. IDTechEx Hydrogen consumption forecast: Refinery
        2.4.4. IDTechEx Hydrogen consumption forecast: Methanol
        2.4.5. IDTechEx Hydrogen consumption forecast: Steel
        2.4.6. Hydrogen adoption in steel production: Overview
        2.4.7. Steel production processes
        2.4.8. Green hydrogen for steel making industry
        2.4.9. CO2 emissions comparison
        2.4.10. Green Steel Projects:
        2.4.11. Hydrogen for ammonia production
        2.4.12. Ammonia: 'The dark side of Hydrogen'
        2.4.13. Hydrogen application in refinery process
        2.4.14. Gas Blending
        2.4.15. Hydrogen Applications
3. ELECTROLYZER TECHNOLOGIES
    3.1.1. Electrolyzers Introduction
    3.1.2. PROS and CONS of AWE and PEMEL systems
    3.1.3. SOEL systems: a substitute to AWE?
    3.1.4. The colours of Hydrogen
    3.1.5. Hydrogen Production Methods
    3.1.6. Hydrogen Production Methods: Steam Reforming (SMR)
    3.1.7. Hydrogen Production Methods: Partial Oxidation (POX)
    3.1.8. Hydrogen Production Methods: Autothermal Reforming (ATR)
    3.2. Alkaline Water Electrolyzer (AWE)
        3.2.1. Alkaline Electrolyzer: Overview
        3.2.2. AWE electrolyzers systems: Materials, Specifics
        3.2.3. Alkaline Electrolyzer: Cathode Reaction
        3.2.4. Alkaline Electrolyzer: Cathode Materials (HER)
        3.2.5. Alkaline Electrolyzer: Anode Reaction (OER)
        3.2.6. AWE Anode-Cathode summary
        3.2.7. Alkaline and Anion Exchange Membrane Electrolyzers
        3.2.8. AWE system - 'Zero-Gap' configuration advantages
        3.2.9. AWE Diaphragm Characteristics
        3.2.10. AWE: Spacer and Electrolyte
        3.2.11. AWE: Membrane Electrode Assembly (MEA)
        3.2.12. AEMWE Overview
        3.2.13. Commercial AEM electrolyte and cell performances
        3.2.14. Large scale AWE system
        3.2.15. AEL Supply chain
        3.2.16. Proton Exchange Membrane Electrolyzer (PEMEL)
        3.2.17. Overview
        3.2.18. PEM electrolyzers systems: Materials, Specifics
        3.2.19. Proton Exchange Membrane Electrolyzer
        3.2.20. Three Phase Boundary and Proton Exchange Membrane
        3.2.21. PEMEL Working Mechanism
        3.2.22. PEMEL stack and components
        3.2.23. Electrolyzer system: BOP and Stack
        3.2.24. OER Electrocatalyst
        3.2.25. HER Electrocatalyst
        3.2.26. Electrocatalyst Degradation Aspects
        3.2.27. PEMEL Membrane: Overview
        3.2.28. Membrane degradation problems
        3.2.29. Membrane degradation processes
        3.2.30. Current Collectors (CCs)
        3.2.31. Bipolar Plates (BPs)
        3.2.32. Bipolar Plates Materials
        3.2.33. Titanium BP drawbacks
        3.2.34. PEMEL Technical overview
        3.2.35. PEMEL cost breakdown
        3.2.36. PEMEL Supply chain
        3.3. Solid Oxide Electrolyzer (SOEL)
        3.3.1. Solid Oxide Electrolyzer (SOEL)
        3.3.2. Overview
        3.3.3. Solid Oxide Electrolyzer: Overview
        3.3.4. Reversible - SOFC
        3.3.5. Solid Oxide Electrolyzer: Solid Electrolyte
        3.3.6. Solid Oxide Electrolyzer: Electrodes
        3.3.7. SOEL Electrolyzers systems: Materials, Specifics
        3.3.8. SOEL Market
        3.3.9. SOEL Supply Chain
4. ELECTROLYZER MARKET ANALYSIS
    4.1. Electrolyzer Manufacturers: Overview
    4.2. Market Overview
    4.3. Dynamic Operation Property
    4.4. Europe is leading the hydrogen market
    4.5. Hydrogen projects in Europe
    4.6. Hydrogen related projects
    4.7. Comparison of electrolyzer systems - Materials
    4.8. Electrolyzer systems comparison - Operating parameters
    4.9. Downstream electrolyzers component vendors
    4.10. Global electrolyzer players
    4.11. Market Addressed by EL manufacturer
    4.12. Companies Interviewed by IDTechEx
    4.13. Commercialised electrolyzer efficiency comparison
    4.14. Electrolyzers efficiency charts
    4.15. PEMEL Efficiency trend
    4.16. PEMEL-AWE efficiency trend
5. CASE STUDIES
    5.1. Nel ASA
    5.2. Nel Overview
    5.3. Nel 2020 analysis
    5.4. Plug Power
    5.5. Plug Power: Overview
    5.6. PlugPower - Acquisitions and Partnerships
    5.7. Plug Power developing its own supply chain
    5.8. ITM Power
    5.9. ITM Power: 'A transformational 2020'
    5.10. 1GW PEM electrolyzer factory in Sheffield (UK)
    5.11. ITM strong involvement in HRS deployment
    5.12. ITM Power: Power-to-Gas and Gas-Grid projects
    5.13. ITM Power electrolyzers for industrial applications
    5.14. ITM Power - Linde joint venture
    5.15. ITM Power Projects
    5.16. McPhy
    5.17. McPhy Overview
    5.18. From €18m to €198m Capital Increase
    5.19. McPhy's strategic Partners

Title: Green Hydrogen Production: Electrolyzer Markets 2021-2031
 
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