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世界における水素経済の構築:各種技術と市場機会

Building the Global Hydrogen Economy: Technologies and Opportunities

発行 BCC Research 商品コード 121219
出版日 ページ情報 英文 135 Pages
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世界における水素経済の構築:各種技術と市場機会 Building the Global Hydrogen Economy: Technologies and Opportunities
出版日: 2015年11月19日 ページ情報: 英文 135 Pages
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概要

2014年、水素経済の構築に向けた世界における投資額は総計で34億ドルを超える規模に達しました。さらに2015年から2020年にかけては35.5%のCAGRで推移し、2015年の48億ドルから、2020年には218億ドルの規模に成長すると予測されています。

当レポートでは、世界の水素製造・貯蔵・流通技術の市場について調査し、水素および水素経済の定義と概要、水素経済に向けた政府による各種イニシアチブ、水素の製造・貯蔵・流通プロセスと主な利用技術、技術区分・技術製品別の市場規模の実績・予測、特許データ、競合環境、主要企業のプロファイルなどを詳細に渡ってまとめています。

第1章 イントロダクション

第2章 エグゼクティブサマリー

第3章 概要

  • 水素経済
  • 定義
    • 水素の特徴
    • 世界の水素消費
    • 水素経済の合理性
    • 各種技術
    • 市場サマリー

第4章 政府支援による水素イニシアチブ

  • 米国
    • 連邦政府によるイニシアチブ
    • 州政府によるイニシアチブ
    • 地域のイニチアチブ
  • EU
    • EUプログラム
    • EU加盟国
      • ドイツ
      • フランス
      • イタリア
      • デンマーク
  • 日本
  • 中国
  • インド
  • その他
    • オーストラリア
    • カナダ
    • アイスランド
    • 韓国
    • ロシア
  • 国家間プログラム

第5章 水素製造

  • サマリー
  • 主要技術
    • 熱プロセス
      • 天然ガスの水蒸気改質
      • 部分酸化
      • 自己熱改質
      • 石炭ガス化
        • FutureGen
      • カーボンブラックと水素プロセス
      • バイオマスガス化
      • 酸素によるガス化
        • HydroMax
        • Startech
        • Pyrolysis
        • National Renewable Energy Laboratory/Eprida
      • 再生可能液体年長の改質
        • ECD Ovonics
        • HTC Purenergy
        • Innovatek
      • 高温水分解
        • ヨウ素-硫黄サイクル
    • 電解プロセス
      • 従来型電解
      • 高温電解
        • 固体酸化物電解電池
        • エネルギー源
          • 原子炉
          • 太陽集光器
        • 技術的課題
      • その他
        • ハイブリッド熱化学・電解処理
          • ハイブリッド硫黄プロセス
          • SRIプロセス
    • 光分解プロセス
      • 光電気化学水分解
      • 光生物学的水分解
    • その他
      • 暗所発酵
  • 特許分析
  • 市場
  • 大規模・集中型水素工場
  • 分散型水素製造

第6章 水素貯蔵

  • サマリー
  • 主要技術
  • 水素直接貯蔵
    • ガス貯蔵
    • 液体貯蔵
  • 炭化水素
    • 各種技術
      • 炭化水素のオンボード改質
        • オンボード改質アプローチ
        • メリット・デメリット
        • 商業的現状
          • IdaTech
          • Innovatek
    • 直接炭化水素燃料電池
      • 各種タイプ
        • 直接メタノール燃料電池
        • 直接エタノール燃料電池
      • メリット・デメリット
      • 商業的現状
  • アンモニア貯蔵
    • アンモニア-ボラン貯蔵
    • アンモニア-海塩貯蔵
  • 水素化金属
    • 一般原理
    • 各種タイプ
    • メリット・デメリット
    • 商業的現状
  • ゼオライト
    • 一般原理
    • 各種タイプ
  • その他のナノ構造材料
  • その他の貯蔵技術
  • 特許分析
  • 市場

第7章 バルク水素流通

  • サマリー
  • 主要技術
    • タンクトラック・鉄道車両・バージ船
    • チューブトレーラー
    • パイプライン
    • その他
  • 水素ステーション
    • 水素スタンド
    • 家庭用水素補充設備
  • 特許分析
  • 市場

第8章 電気化学エネルギー変換

  • サマリー
  • 主要技術
  • 各種技術
  • 特許分析
  • 市場

第9章 直接水素燃焼

  • サマリー
  • 各種技術
    • 内燃機関
    • タービン
  • 特許
  • 市場
  • 水素内燃機関
  • 水素タービン

第10章 その他の水素関連技術

  • 水素センサー
    • 各種技術
  • 特許
  • 市場

第11章 企業プロファイル

  • ACTA SPA
  • ADVANCED MATERIALS CORP.
  • AIR PRODUCTS AND CHEMICALS INC.
  • ALCHEMIX CORP
  • AMMINEX A/S
  • AVALENCE LLC
  • BALLARD POWER SYSTEMS
  • BAYERISCHE MOTOREN WERKE AG
  • CERAMATEC
  • DIVERSIFIED ENERGY CORP
  • DUPONT
  • EPRIDA TECHNOLOGIES
  • ERGENICS
  • ETUDES CHEMIQUES ET PHYSIQUES SARL
  • FOSTER WHEELER CORP.
  • FUEL CELL ENERGY INC.
  • GENERAL ATOMICS
  • H2GEN INNOVATIONS INC.
  • H2SCAN
  • HALDOR TOPSOE A/S
  • HCE LLC
  • HTC PURENERGY
  • HY9 CORP.
  • HYDROGENICS CORP.
  • INERGY AUTOMOTIVE SYSTEMS
  • INNOVATEK INC.
  • LINDE AG
  • LUXFER GROUP LTD.
  • MAGNA STEYR AG & CO. KG
  • MAKEL ENGINEERING INC.
  • MATERIALS AND SYSTEMS RESEARCH INC.
  • MEMBRANE TECHNOLOGY AND RESEARCH INC.
  • MERITOR INC.
  • MO-SCI CORP.
  • NANOMIX INC.
  • PLUG POWER LLC
  • PROTON ONSITE
  • QUANTUM FUEL SYSTEMS TECHNOLOGIES WORLDWIDE INC.
  • SECAT INC.
  • SOTACARBO S.P.A.
  • TECHNIP SA
  • UHDE GMBH
  • WELDSHIP CORP.
  • XEBEC INC.
  • ZTEK COR

図表

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目次
Product Code: EGY055C

REPORT HIGHLIGHTS

Global investments in building the hydrogen economy cost more than $3.4 billion in 2014, and they are expected to approach $4.8 billion in 2015 and $21.8 billion by 2020, with a compound annual growth rate (CAGR) of 35.5% from 2015 to 2020.

This report provides:

  • An overview of the global Hydrogen economy with regard to technology and opportunities.
  • Analyses of global market trends, with data from 2014, 2015, and projections of CAGRs through 2020.
  • Comprehensive descriptions of key enabling technologies used in the production, storage, and distribution of hydrogen, its conversion to other forms of energy or direct consumption as a fuel, and miscellaneous other types of hydrogen-related technology such as hydrogen sensors.
  • A look at challenges that must be overcome to reach commercialization potential.
  • Evaluations of government programs and policies in support of the hydrogen economy.
  • Coverage of the market's dynamics, specifically growth drivers, inhibitors, and opportunities.
  • Relevant patent analysis.
  • Profiles of major players in the industry.

SCOPE OF REPORT

The report covers the global market for technologies used in the production, storage and distribution of hydrogen; its conversion to other forms of energy or direct consumption as a fuel; and miscellaneous other types of hydrogen-related technology, such as hydrogen sensors.

The study format includes:

  • Executive summary.
  • Key enabling technologies for the hydrogen economy, as well as their commercial or developmental status.
  • Developments that will influence commercial prospects and demand for hydrogen technologies.
  • Hydrogen technology market projections through 2015.
  • Key patents.
  • Government programs and policies in support of the hydrogen economy.
  • Technology vendor profiles.

ANALYST'S CREDENTIALS

Andrew McWilliams, the author of this report, is a partner in 43rd Parallel LLC, the Boston-based international technology and marketing consulting firm. He is the author of numerous other BCC Research business opportunity analyses of related areas, including the previous edition of this report.

Table of Contents

CHAPTER 1 - INTRODUCTION

  • STUDY BACKGROUND
  • GOALS AND OBJECTIVES
  • INTENDED AUDIENCE
  • SCOPE OF REPORT
  • METHODOLOGY AND INFORMATION SOURCES
  • ANALYST'S CREDENTIALS
  • RELATED BCC RESEARCH REPORTS
  • BCC RESEARCH WEBSITE
  • DISCLAIMER

CHAPTER 2 - EXECUTIVE SUMMARY

  • SUMMARY TABLE: GLOBAL HYDROGEN PLANT AND EQUIPMENT INVESTMENTS, THROUGH 2020 ($ MILLIONS)
  • SUMMARY FIGURE: SHARE TRENDS FOR HYDROGEN PLANTS AND EQUIPMENT, 2014 AND 2020 (% TOTAL INVESTMENTS)

CHAPTER 3 - OVERVIEW

  • HYDROGEN ECONOMY
  • DEFINITIONS
    • HYDROGEN CHARACTERISTICS
    • GLOBAL HYDROGEN CONSUMPTION
      • FIGURE 1: GLOBAL HYDROGEN CONSUMPTION SHARE, 2014 (%)
      • TABLE 1: GLOBAL HYDROGEN CONSUMPTION, THROUGH 2020 (MILLION TONS)
      • FIGURE 2: GLOBAL HYDROGEN CONSUMPTION TRENDS, 2014-2020 (MILLION TONS)
    • RATIONALE FOR A HYDROGEN ECONOMY
      • Economic
      • Environmental
      • Energy Security
      • Economic Development
      • Other Socio-Economic Impacts
    • TECHNOLOGIES
      • HYDROGEN PRODUCTION TECHNOLOGIES
      • HYDROGEN STORAGE TECHNOLOGIES
      • HYDROGEN DISTRIBUTION TECHNOLOGIES
      • ELECTROCHEMICAL ENERGY CONVERSION TECHNOLOGIES
      • DIRECT HYDROGEN COMBUSTION TECHNOLOGIES
      • OTHER TECHNOLOGIES
    • MARKET SUMMARY
      • TABLE 2: GLOBAL HYDROGEN TECHNOLOGY INVESTMENTS, THROUGH 2020 ($ MILLIONS)
      • FIGURE 3: GLOBAL HYDROGEN TECHNOLOGY SHARES, 2014-2020 (%)

CHAPTER 4 - GOVERNMENT-SUPPORTED HYDROGEN INITIATIVES

  • U.S.
    • FEDERAL INITIATIVES
      • Department of Energy
        • FIGURE 4: U.S. DEPARTMENT OF ENERGY HYDROGEN AND FUEL CELL FUNDING, FISCAL YEARS, 2004-2014 ($ MILLIONS)
        • FIGURE 5: HYDROGEN BUDGET OF U.S. DEPARTMENT OF ENERGY OFFICE OF ENERGY EFFICIENCY AND RENEWABLE ENERGY, FISCAL YEAR 2014 (% OF HYDROGEN BUDGET)
      • Other U.S. Government Programs and Initiatives
    • STATE INITIATIVES
      • California
      • New York
      • Other States
    • REGIONAL INITIATIVES
      • Clean Energy States Alliance
  • EUROPEAN UNION
    • EUROPEAN UNION PROGRAMS
      • European Union Framework Program
        • FIGURE 6: EUROPEAN UNION FUEL CELL AND HYDROGEN JOINT UNDERTAKING OPERATION BUDGET, 2008-2013 (MILLION EUROS)
        • FIGURE 7: JOINT UNDERTAKING HYDROGEN INVESTMENTS BY AREA, 2008-2013 (% OF TOTAL HYDROGEN INVESTMENTS)
      • Carbon Dioxide Emission Restrictions
    • EUROPEAN UNION MEMBER STATES
      • Germany
      • France
      • Italy
      • Denmark
  • JAPAN
  • CHINA
  • INDIA
  • OTHER COUNTRIES
    • AUSTRALIA
    • CANADA
    • ICELAND
    • SOUTH KOREA
    • RUSSIA
  • INTERGOVERNMENTAL PROGRAMS
    • U.S.-E.U. COLLABORATION
    • INTERNATIONAL PARTNERSHIP FOR THE HYDROGEN ECONOMY
    • INTERNATIONAL ENERGY AGENCY HYDROGEN COORDINATION GROUP

CHAPTER 5 - HYDROGEN PRODUCTION

  • SUMMARY
  • PRINCIPAL TECHNOLOGIES
    • THERMAL PROCESSES
      • TABLE 3: THERMAL PROCESSES FOR HYDROGEN PRODUCTION
      • Steam Reforming of Natural Gas
      • Partial Oxidation
      • Autothermal Reforming
      • Coal Gasification
        • FutureGen
      • Carbon Black and Hydrogen Process
      • Biomass Gasification
      • Gasification with Oxygen
        • HydroMax Process
        • Startech Process
        • Pyrolysis
        • National Renewable Energy Laboratory/Eprida Process
      • Reforming of Renewable Liquid Fuels
        • ECD Ovonics
        • HTC Purenergy
        • Innovatek
      • High-Temperature Water Splitting
        • Sulfur-Iodide Cycle
    • ELECTROLYTIC PROCESSES
      • TABLE 4: ELECTROLYTIC PROCESSES FOR THE PRODUCTION OF HYDROGEN
      • Conventional Electrolysis
      • High-Temperature Electrolysis
        • Solid Oxide Electrolysis Cells
        • Energy Sources
          • Nuclear Reactors
          • Solar Concentrators
        • Technological Challenges
      • Other Electrolytic Technologies for Hydrogen Production
        • Hybrid Thermochemical and Electrolytic Processes
          • Hybrid Sulfur Process
          • SRI Process
    • PHOTOLYTIC PROCESSES
      • TABLE 5: PHOTOLYTIC PROCESSES FOR THE PRODUCTION OF HYDROGEN
      • Photoelectrochemical Water Splitting
      • Photobiological Water Splitting
    • OTHER TYPES OF PROCESS
      • Dark Fermentation
  • PATENT ANALYSIS
    • PATENTS BY TECHNOLOGY TYPE
      • FIGURE 8: U.S. HYDROGEN PRODUCTION PATENTS ISSUED BY TECHNOLOGY TYPE, 1975-AUGUST 1, 2015 (%)
    • PATENT TRENDS OVER TIME
      • TABLE 6: U.S. HYDROGEN PRODUCTION PATENTS ISSUED, 2008-AUGUST 1, 2015 (PATENTS)
    • MAJOR INTELLECTUAL PROPERTY PORTFOLIOS
      • FIGURE 9: MAJOR HYDROGEN PRODUCTION INTELLECTUAL PROPERTY PORTFOLIOS ISSUED, 1975-AUGUST 1, 2015 (%)
  • MARKETS
    • TABLE 7: GLOBAL MARKET FOR EQUIPMENT USED TO GENERATE HYDROGEN FOR DIRECT ENERGY APPLICATIONS, THROUGH 2020 ($ MILLIONS)
  • LARGE AND CENTRALIZED HYDROGEN PLANTS
    • TABLE 8: PROJECTED EXPENDITURES ON CONSTRUCTION OF HYDROGEN GENERATORS ASSOCIATED WITH LARGE AND CENTRALIZED HYDROGEN POWER PLANTS, 2014-2020 ($ MILLIONS)
  • DECENTRALIZED HYDROGEN PRODUCTION
    • External Fuel Cell Reformers
      • TABLE 9: GLOBAL FUEL CELL REFORMER MARKET, THROUGH 2020 ($ MILLIONS)
    • Hydrogen Stations

CHAPTER 6 - HYDROGEN STORAGE

  • SUMMARY
  • PRINCIPAL TECHNOLOGIES
    • TABLE 10: U.S. DEPARTMENT OF ENERGY TARGETS FOR ON-BOARD HYDROGEN STORAGE SYSTEMS, 2020
    • TABLE 11: HYDROGEN STORAGE TECHNOLOGIES
  • DIRECT STORAGE OF HYDROGEN
    • Gaseous Storage
      • Current Gaseous Hydrogen Storage Technology
      • Geologic Bulk Storage Systems
    • Liquid Storage
      • BMW Dual Fuel Thermo-Tank
      • Future Developments
  • HYDROCARBONS
    • Technologies
      • Onboard Reforming of Hydrocarbons
        • Approaches to Onboard Reforming
          • External Reforming
          • Internal Reforming
        • Advantages and Disadvantages of On-Board Reforming
        • Commercial Status of Onboard Reforming
          • IdaTech
          • Innovatek
    • Direct Hydrocarbon Fuel Cells
      • Direct Hydrocarbon Fuel Cell Types
        • Direct Methanol Fuel Cells
        • Direct Ethanol Fuel Cells
      • Advantages and Disadvantages of Direct Hydrocarbon Fuel Cells
      • Commercial Status of Direct Hydrocarbon Fuel Cells
  • AMMONIA STORAGE
    • Ammonia-Borane Storage
    • Ammonia-Sea Salt Storage
  • METAL HYDRIDES
    • General Principles
    • Metal Hydride Types
    • Advantages and Disadvantages for Hydrogen Storage
    • Commercial Status
  • ZEOLITES
    • General Principles
    • Zeolite Types
      • ZK-5
      • CD-Exchanged Rho Zeolite
      • Magnesium-Optimized Zeolites for Hydrogen Storage
      • Other Zeolites
  • OTHER NANOSTRUCTURED MATERIALS
    • Carbon Nanotubes and Buckyballs
    • Metal-Organic Frameworks
  • OTHER STORAGE TECHNOLOGIES
    • Phosphonium Borate
    • Polymers
      • Polymers of Intrinsic Microporosity
      • Conformal Polymeric Foams
    • Ethylene
    • Hollow Glass Microspheres
  • PATENT ANALYSIS
    • PATENTS BY TECHNOLOGY TYPE
      • FIGURE 10: U.S. HYDROGEN STORAGE PATENTS BY TECHNOLOGY TYPE, THROUGH AUGUST 1, 2015 (% PATENTS ISSUED)
    • PATENT TRENDS OVER TIME
      • TABLE 12: U.S. HYDROGEN STORAGE PATENTS ISSUED PER YEAR, 2008 - AUGUST 1, 2015 (PATENTS)
      • FIGURE 11: ANNUAL U.S. HYDROGEN STORAGE PATENTS ISSUED TRENDS, 2008 - AUGUST 1, 2015 (PATENTS)
    • MAJOR INELLECTUAL PROPERTY PORTFOLIOS
      • FIGURE 12: MAJOR HYDROGEN STORAGE INTELLECTUAL PROPERTY PORTFOLIOS ISSUED, 1975 - AUGUST 1, 2015 (%)
  • MARKETS
    • SUMMARY
      • TABLE 13: GLOBAL HYDROGEN STORAGE TECHNOLOGY* MARKET, THROUGH 2020 ($ MILLIONS)
    • PRESSURIZED STORAGE CYLINDERS
      • TABLE 14: GLOBAL PRESSURIZED CYLINDERS USED TO STORE HYDROGEN MARKET, THROUGH 2020 ($ MILLIONS)
    • HYDROGEN FUEL TANKS
      • TABLE 15: GLOBAL MARKET FOR HYDROGEN FUEL TANKS USED IN MOBILE APPLICATIONS, THROUGH 2020* ($ MILLIONS)

CHAPTER 7 - BULK HYDROGEN DISTRIBUTION

  • SUMMARY
  • PRINCIPAL TECHNOLOGIES
    • TANK TRUCKS, RAILCARS AND BARGES
    • TUBE TRAILERS
    • PIPELINES
      • New Hydrogen Pipeline Materials
      • Mixed Hydrogen and Natural Gas Pipelines
        • Commingled Hydrogen and Natural Gas
        • Alternating Hydrogen and Natural Gas
    • Other Technical Issues
      • Effect of Hydrogen Exposure on Pipeline Materials
      • Hydrogen Permeation and Leaks
      • Compression Technology
        • Single-Screw Hydrogen Compressor
        • Hydride Based Hydrogen Compressor
          • Advanced Centrifugal Compressor
          • Electrochemical Compressor
          • Advanced Materials for Compressors
    • Alternatives to Transmission of Gaseous Hydrogen
  • HYDROGEN STATIONS
    • Hydrogen Filling Stations
      • Mobile Hydrogen Refuelers
    • Hydrogen Home Stations
  • PATENT ANALYSIS
    • PATENTS BY TECHNOLOGY TYPE
      • FIGURE 13: U.S. HYDROGEN TRANSMISSION AND DISTRIBUTION TECHNOLOGY PATENTS ISSUED, BY TECHNOLOGY TYPE, THROUGH AUGUST 2015 (%)
    • PATENTS BY ASSIGNEE
      • FIGURE 14: U.S. HYDROGEN TRANSMISSION AND DISTRIBUTION TECHNOLOGY PATENTS ISSUED BY ASSIGNEE, THROUGH AUGUST 2015 (%)
  • MARKETS
    • TABLE 16: GLOBAL HYDROGEN TRANSMISSION AND DISTRIBUTION TECHNOLOGY MARKET, THROUGH 2020 ($ MILLIONS)
  • TRANSMISSION
    • FIGURE 15: HYDROGEN FUEL SOURCES FOR EXISTING AND PLANNED HYDROGEN FILLING STATIONS, 2014 (PERCENTAGE OF EXISTING AND CURRENTLY PLANNED HYDROGEN STATIONS)
    • Liquid Hydrogen Tankers
      • TABLE 17: GLOBAL LIQUID HYDROGEN TANKER TRUCK MARKET, THROUGH 2020 (UNITS/$ MILLIONS)
    • Tube Trailers
      • TABLE 18: GLOBAL COMPRESSED HYDROGEN TUBE TRAILER MARKET, THROUGH 2020 (UNITS/$ MILLIONS)
    • Pipelines
  • HYDROGEN STATIONS
    • TABLE 19: GLOBAL HYDROGEN STATION MARKET, THROUGH 2020 (UNITS/$ MILLIONS)
    • Hydrogen Filling Stations
      • TABLE 20: GLOBAL INVESTMENTS IN NEW HYDROGEN FUELING STATIONS, THROUGH 2020 (UNITS/$ MILLIONS)
    • Hydrogen Home Stations
      • TABLE 21: GLOBAL HYDROGEN HOME STATION MARKET, THROUGH 2020 (UNITS/$ MILLIONS)

CHAPTER 8 - ELECTROCHEMICAL ENERGY CONVERSION

  • SUMMARY
  • PRINCIPAL TECHNOLOGIES
    • FIGURE 16 FUEL CELL PRINCIPLES
  • MAIN TECHNOLOGIES
    • TABLE 22 MAJOR FUEL CELL TECHNOLOGIES
    • Polymer Electrolyte Membrane Fuel Cells
    • Direct Methanol Fuel Cells
    • Alkaline Fuel Cells
    • Phosphoric Acid Fuel Cells
    • Molten Carbonate Fuel Cells
    • Solid Oxide Fuel Cells
  • PATENT ANALYSIS
    • PATENTS BY TECHNOLOGY TYPE
      • FIGURE 17: U.S. FUEL CELL PATENTS BY TECHNOLOGY TYPE, THROUGH AUGUST 2015 (%)
    • PATENT TRENDS OVER TIME
      • TABLE 23: U.S. FUEL CELL PATENTS ISSUED PER YEAR, 2008-2015 (NUMBER OF PATENTS)
      • FIGURE 18: ANNUAL U.S. FUEL CELL ISSUED PATENT TRENDS, 2008-2015 (NUMBER OF PATENTS)
    • MAJOR INTELLECTUAL PROPERTY PORTFOLIOS
      • FIGURE 19: MAJOR FUEL CELL INTELLECTUAL PROPERTY PORTFOLIOS ISSUED, THROUGH AUGUST 2015 (PERCENTAGE OF U.S. HYDROGEN STORAGE PATENTS)
  • MARKETS
    • TABLE 24: GLOBAL FUEL CELL SALES BY APPLICATION TYPE, THROUGH 2020 ($ MILLIONS)
    • FIGURE 20: GLOBAL FUEL CELL SALE TRENDS BY APPLICATION TYPE, 2014-2020 ($ MILLIONS)
    • FIGURE 21: GLOBAL FUEL CELL MARKET SHARES BY APPLICATION TYPE, 2014-2020 (% TOTAL SALES)

CHAPTER 9 - DIRECT HYDROGEN COMBUSTION

  • SUMMARY
  • TECHNOLOGIES
    • INTERNAL COMBUSTION ENGINES
      • Hydrogen Internal Combustion Engines
        • BMW Dual-Fuel Technology
        • Ford and Mazda Technology
      • Hybrid Hydrogen-Electric Propulsion Systems
      • Hydrogen-Boosted Gasoline Engines
    • TURBINES
  • PATENTS
  • MARKETS
    • TABLE 25: GLOBAL DIRECT HYDROGEN COMBUSTION TECHNOLOGY MARKET, THROUGH 2020 ($ MILLIONS)
  • HYDROGEN INTERNAL COMBUSTION ENGINES
  • HYDROGEN TURBINES
    • TABLE 26: GLOBAL MARKET FOR LARGE HYDROGEN TURBINES USED TO GENERATE ELECTRICITY, THROUGH 2020 ($ MILLIONS)

CHAPTER 10 - OTHER HYDROGEN-RELATED TECHNOLOGIES

  • HYDROGEN SENSORS
    • TECHNOLOGIES
      • MEMS Hydrogen Sensors
      • Hydrogen Nanosensors
        • Nanoscale Palladium Thin-Film Sensors
        • Carbon Nanotube-Based Hydrogen Sensors
        • Titania Nanotube-Based Hydrogen Sensors
        • Nanowire-Based Hydrogen Sensors
  • PATENTS
    • FIGURE 22: U.S. HYDROGEN SENSOR PATENT HOLDERS, DECEMBER 2009 - AUGUST 2015 (PERCENTAGE OF TOTAL PATENTS)
  • MARKETS
    • TABLE 27: GLOBAL HYDROGEN SENSOR MARKET, THROUGH 2020 ($ MILLIONS)

CHAPTER 11 - COMPANY PROFILES

  • ACTA SPA
  • ADVANCED MATERIALS CORP.
  • AIR PRODUCTS AND CHEMICALS INC.
  • ALCHEMIX CORP
  • AMMINEX A/S
  • AVALENCE LLC
  • BALLARD POWER SYSTEMS
  • BAYERISCHE MOTOREN WERKE AG
  • CERAMATEC
  • DIVERSIFIED ENERGY CORP
  • DUPONT
  • EPRIDA TECHNOLOGIES
  • ERGENICS
  • ETUDES CHEMIQUES ET PHYSIQUES SARL
  • FOSTER WHEELER CORP.
  • FUEL CELL ENERGY INC.
  • GENERAL ATOMICS
  • H2GEN INNOVATIONS INC.
  • H2SCAN
  • HALDOR TOPSOE A/S
  • HCE LLC
  • HTC PURENERGY
  • HY9 CORP.
  • HYDROGENICS CORP.
  • INERGY AUTOMOTIVE SYSTEMS
  • INNOVATEK INC.
  • LINDE AG
  • LUXFER GROUP LTD.
  • MAGNA STEYR AG & CO. KG
  • MAKEL ENGINEERING INC.
  • MATERIALS AND SYSTEMS RESEARCH INC.
  • MEMBRANE TECHNOLOGY AND RESEARCH INC.
  • MERITOR INC.
  • MO-SCI CORP.
  • NANOMIX INC.
  • PLUG POWER LLC
  • PROTON ONSITE
  • QUANTUM FUEL SYSTEMS TECHNOLOGIES WORLDWIDE INC.
  • SECAT INC.
  • SOTACARBO S.P.A.
  • TECHNIP SA
  • UHDE GMBH
  • WELDSHIP CORP.
  • XEBEC INC.
  • ZTEK COR

LIST OF TABLES

  • SUMMARY TABLE: GLOBAL HYDROGEN PLANT AND EQUIPMENT INVESTMENTS, THROUGH 2020 ($ MILLIONS)
    • TABLE 1: GLOBAL HYDROGEN CONSUMPTION, THROUGH 2020 (MILLION TONS)
    • TABLE 2: GLOBAL HYDROGEN TECHNOLOGY INVESTMENTS, THROUGH 2020 ($ MILLIONS)
    • TABLE 3: THERMAL PROCESSES FOR HYDROGEN PRODUCTION
    • TABLE 4: ELECTROLYTIC PROCESSES FOR THE PRODUCTION OF HYDROGEN
    • TABLE 5: PHOTOLYTIC PROCESSES FOR THE PRODUCTION OF HYDROGEN
    • TABLE 6: U.S. HYDROGEN PRODUCTION PATENTS ISSUED, 2008--AUGUST 1, 2015 (PATENTS)
    • TABLE 7: GLOBAL MARKET FOR EQUIPMENT USED TO GENERATE HYDROGEN FOR DIRECT ENERGY APPLICATIONS, THROUGH 2020 ($ MILLIONS)
    • TABLE 8: PROJECTED EXPENDITURES ON CONSTRUCTION OF HYDROGEN GENERATORS ASSOCIATED WITH LARGE AND CENTRALIZED HYDROGEN POWER PLANTS, 2014-2020 ($ MILLIONS)
    • TABLE 9: GLOBAL FUEL CELL REFORMER MARKET, THROUGH 2020 ($ MILLIONS)
    • TABLE 10: U.S. DEPARTMENT OF ENERGY TARGETS FOR ON-BOARD HYDROGEN STORAGE SYSTEMS, 2020
    • TABLE 11: HYDROGEN STORAGE TECHNOLOGIES
    • TABLE 12: U.S. HYDROGEN STORAGE PATENTS ISSUED PER YEAR, 2008 - AUGUST 1, 2015 (PATENTS)
    • TABLE 13: GLOBAL HYDROGEN STORAGE TECHNOLOGY* MARKET, THROUGH 2020 ($ MILLIONS)
    • TABLE 14: GLOBAL PRESSURIZED CYLINDERS USED TO STORE HYDROGEN MARKET, THROUGH 2020 ($ MILLIONS)
    • TABLE 15: GLOBAL MARKET FOR HYDROGEN FUEL TANKS USED IN MOBILE APPLICATIONS, THROUGH 2020* ($ MILLIONS)
    • TABLE 16: GLOBAL HYDROGEN TRANSMISSION AND DISTRIBUTION TECHNOLOGY MARKET, THROUGH 2020 ($ MILLIONS)
    • TABLE 17: GLOBAL LIQUID HYDROGEN TANKER TRUCK MARKET, THROUGH 2020 (UNITS/$ MILLIONS)
    • TABLE 18: GLOBAL COMPRESSED HYDROGEN TUBE TRAILER MARKET, THROUGH 2020 (UNITS/$ MILLIONS)
    • TABLE 19: GLOBAL HYDROGEN STATION MARKET, THROUGH 2020 (UNITS/$ MILLIONS)
    • TABLE 20: GLOBAL INVESTMENTS IN NEW HYDROGEN FUELING STATIONS, THROUGH 2020 (UNITS/$ MILLIONS)
    • TABLE 21: GLOBAL HYDROGEN HOME STATION MARKET, THROUGH 2020 (UNITS/$ MILLIONS)
    • TABLE 22: MAJOR FUEL CELL TECHNOLOGIES
    • TABLE 23: U.S. FUEL CELL PATENTS ISSUED PER YEAR, 2008-2015 (NUMBER OF PATENTS)
    • TABLE 24: GLOBAL FUEL CELL SALES BY APPLICATION TYPE, THROUGH 2020 ($ MILLIONS)
    • TABLE 25: GLOBAL DIRECT HYDROGEN COMBUSTION TECHNOLOGY MARKET, THROUGH 2020 ($ MILLIONS)
    • TABLE 26: GLOBAL MARKET FOR LARGE HYDROGEN TURBINES USED TO GENERATE ELECTRICITY, THROUGH 2020 ($ MILLIONS)
    • TABLE 27: GLOBAL HYDROGEN SENSOR MARKET, THROUGH 2020 ($ MILLIONS) 127

LIST OF FIGURES

  • SUMMARY FIGURE: SHARE TRENDS FOR HYDROGEN PLANTS AND EQUIPMENT, 2014 AND 2020 (% TOTAL INVESTMENTS)
    • FIGURE 1: GLOBAL HYDROGEN CONSUMPTION SHARE, 2014 (%)
    • FIGURE 2: GLOBAL HYDROGEN CONSUMPTION TRENDS, 2014-2020 (MILLION TONS)
    • FIGURE 3: GLOBAL HYDROGEN TECHNOLOGY SHARES, 2014-2020 (%)
    • FIGURE 4: U.S. DEPARTMENT OF ENERGY HYDROGEN AND FUEL CELL FUNDING, FISCAL YEARS, 2004-2014 ($ MILLIONS)
    • FIGURE 5: HYDROGEN BUDGET OF U.S. DEPARTMENT OF ENERGY OFFICE OF ENERGY EFFICIENCY AND RENEWABLE ENERGY, FISCAL YEAR 2014 (% OF HYDROGEN BUDGET)
    • FIGURE 6: EUROPEAN UNION FUEL CELL AND HYDROGEN JOINT UNDERTAKING OPERATION BUDGET, 2008-2013 (MILLION EUROS)
    • FIGURE 7: JOINT UNDERTAKING HYDROGEN INVESTMENTS BY AREA, 2008-2013 (% OF TOTAL HYDROGEN INVESTMENTS)
    • FIGURE 8: U.S. HYDROGEN PRODUCTION PATENTS ISSUED BY TECHNOLOGY TYPE, 1975-AUGUST 1, 2015 (%)
    • FIGURE 9: MAJOR HYDROGEN PRODUCTION INTELLECTUAL PROPERTY PORTFOLIOS ISSUED, 1975-AUGUST 1, 2015 (%)
    • FIGURE 10: U.S. HYDROGEN STORAGE PATENTS BY TECHNOLOGY TYPE, THROUGH AUGUST 1, 2015 (% PATENTS ISSUED)
    • FIGURE 11: ANNUAL U.S. HYDROGEN STORAGE PATENTS ISSUED TRENDS, 2008 - AUGUST 1, 2015 (PATENTS)
    • FIGURE 12: MAJOR HYDROGEN STORAGE INTELLECTUAL PROPERTY PORTFOLIOS ISSUED, 1975 - AUGUST 1, 2015 (%)
    • FIGURE 13: U.S. HYDROGEN TRANSMISSION AND DISTRIBUTION TECHNOLOGY PATENTS ISSUED, BY TECHNOLOGY TYPE, THROUGH AUGUST 2015 (%)
    • FIGURE 14: U.S. HYDROGEN TRANSMISSION AND DISTRIBUTION TECHNOLOGY PATENTS ISSUED BY ASSIGNEE, THROUGH AUGUST 2015 (%)
    • FIGURE 15: HYDROGEN FUEL SOURCES FOR EXISTING AND PLANNED HYDROGEN FILLING STATIONS, 2014 (PERCENTAGE OF EXISTING AND CURRENTLY PLANNED HYDROGEN STATIONS)
    • FIGURE 16: FUEL CELL PRINCIPLES
    • FIGURE 17: U.S. FUEL CELL PATENTS BY TECHNOLOGY TYPE, THROUGH AUGUST 2015 (%)
    • FIGURE 18: ANNUAL U.S. FUEL CELL ISSUED PATENT TRENDS, 2008-2015 (NUMBER OF PATENTS)
    • FIGURE 19: MAJOR FUEL CELL INTELLECTUAL PROPERTY PORTFOLIOS ISSUED, THROUGH AUGUST 2015 (PERCENTAGE OF U.S. HYDROGEN STORAGE PATENTS)
    • FIGURE 20: GLOBAL FUEL CELL SALE TRENDS BY APPLICATION TYPE, 2014-2020 ($ MILLIONS)
    • FIGURE 21: GLOBAL FUEL CELL MARKET SHARES BY APPLICATION TYPE, 2014-2020 (% TOTAL SALES)
    • FIGURE 22: U.S. HYDROGEN SENSOR PATENT HOLDERS, DECEMBER 2009 - AUGUST 2015 (PERCENTAGE OF TOTAL PATENTS)
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