Solar Fuels, Artificial Photosynthesis, Hydrogen, Fuel Cells And The Future Of Clean Energy: Technologies, Markets, Competitors And Opportunities - 2013-2023 Analysis And Forecasts

Solar Fuels, Artificial Photosynthesis, Hydrogen, Fuel Cells And The Future Of Clean Energy: Technologies, Markets, Competitors And Opportunities - 2013-2023 Analysis And Forecasts

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Publication ID
ACI0313001
Publication Date
March 4, 2013
Pages
224
Regions Covered
Publisher
The sun delivers more energy to the earth in one hour than civilization currently uses from fossil fuels, nuclear power and all renewable energy sources combined in a year. This solar energy can be captured and stored directly in the chemical bonds of a material, or fuel, and then used when needed. These chemical fuels, in which energy from the sun has deliberately been stored, are called solar fuels.
 
The hydrogen market today is estimated at approximately $35.9 billion. By 2023, it will be worth over $55.2 billion. Making cleaner petroleum fuels in refineries is currently the biggest application for hydrogen, followed by steel and chemicals.
For more than 50 years, scientists have pursued the possibility of producing solar fuels in the laboratory. There are three approaches:
  • Artificial photosynthesis in which systems made by human beings mimic the natural process;
  • Natural photosynthesis; and
  • Thermochemical approaches.
 
Significant progress has been made in producing two very important types of fuels:
 
  • Hydrogen, which can be used as a transport fuel, and is an important feedstock for industry. Hydrogen can be produced by splitting water using sunlight.
  • Carbon-based fuels such as methane or carbon monoxide (used with hydrogen as synthesis gas). These are key feedstocks for making a wide range of industrial products including fertilizers,
 
This report is focuses on hydrogen produced by solar fuels. It provides an in-depth look at: 
 
  • Solar fuel technologies including photovoltaic artificial photosynthesis, photoelectrochemical, photobiological and concentrated solar thermal.
  • Hydrogen as a fuel and energy carrier and its production by steam reforming and renewable technologies.
  • Hydrogen, the future of clean energy, and the need for huge amounts of power in the 21st century.
  • Fuel cell technologies, which use hydrogen to electrochemically convert chemical energy into electrical energy.
  • Current and forecasted demand for hydrogen and fuel cells.
  • Market drivers, applications and economics.
  • Key strategic issues.
  • Major opportunities.
  • Competitive landscape.
  • Leading industry players and researchers.
 
Additionally, profiles of 10 major hydrogen and fuel cell companies in addition to 20 leading research organization are given. The report also includes 74 figures and 40 tables.
EXECUTIVE SUMMARY
 
INTRODUCTION
  • Background
  • Methodology and Sources
  • Statistical Notes
 
SOLAR FUELS
  • What Are Solar Fuels
  • How Would Solar Fuels Change Future Energy Options
  • Storing And Transporting Solar Energy
  • Renewable Liquid Fuels For Transport
  • Renewable Fuels For Established Industries
  • Solar Fuels And Hydrogen Transport
  • Fertilizers
  • Pharmaceuticals
  • Plastics
  • Synthetic Fuels
  • Scientific Breakthroughs
  • Hydrogen As A Future Fuel And Energy Carrier
  • Estimated Potential Of Direct Capture Of Solar Energy
  • Cost Of Oil Dependence
  • Solar Hydrogen Production Systems
  • PV Hydrogen Production Via Electrolysis
  • Higher-Pressure Operations
  • Improved Electrolyzer
  • Photoelectrochemical Systems (PEC)
  • PEC Types
  • Solar Photobiological Hydrogen Production
  • Solar-Driven Biomass Gasification
  • Solar Thermochemical Cycles
  • Solar Thermal Hydrogen Production Via Electricity Generation and Electrolysis
  • Economics
  • Outlook
  • Existing Artificial Photosynthesis Projects
  • Governance Challenges
  • Leading Research Organizations
 
HYDROGEN
  • Properties
  • Hydrogen Is Different
  • Conversion Factors
  • Phases
  • Covalent and Organic Compounds
  • Isotopes
  • Natural Occurrence
  • Methods of Production
  • Current Production Methods
  • Steam Reforming
  • Steam Reforming And Co-generation
  • Partial Oxidation
  • Plasma Reforming
  • Coal
  • Electrolysis of Water
  • High-Pressure Electrolysis
  • High-Temperature Electrolysis
  • High-Temperature Electrolysis
  • Photobiological Water Splitting
  • Sulfur-Iodine Cycle
  • Fermentative Hydrogen Production
  • Enzymatic Hydrogen Generation
  • Biocatalysed Electrolysis
  • Renewable Hydrogen
  • Hydrogen Financials Vs. Natural Gas Price
  • Simple And Complex Refineries
  • Applications
  • Petroleum
  • Other Applications: Chemical, Plastics, Energy Carrier, Automotive and Transportation, Coolant, Semiconductors, Instruments, Detectors, Food, Glass, Laboratories and Analysis, Heat Treatment, Nuclear, Space and Aeronautics, Airships
  • Safety and Precautions
  • US Department of Energy's Hydrogen and Fuel Cells Program
  • Hydrogen Production Program
  • Hydrogen Production Cost Status
  • Hydrogen Delivery
  • Hydrogen Storage Program
  • Fuel Cells Program
  • Basic Research
  • American Recovery and Reinvestment Act Projects
 
HYDROGEN AND THE FUTURE OF CLEAN ENERGY
  • Historical World Energy Production
  • Future World Population
  • Future World Electric Energy Requirements
  • Huge Growth In Energy Demand Forecast
  • Specific Energy In Appropriate Technology
  • Specific Energy of Available Fuels
  • Reduction In The Use Of Petroleum Fuels
  • Inappropriate Technology: Natural Gas To Generate Electricity
  • Inappropriate Technology: Natural Gas To Produce Hydrogen
  • Appropriate Technology: Nuclear Production of Hydrogen
  • Appropriate Technology: Solar Radiation
  • Appropriate Mixture Of Energy Resources
  • Scale Of The Energy Problem
  • Power Requirements Needed
  • Carbon-Free Energy Sources
  • Nuclear
  • Carbon Sequestration
  • Renewables
  • Solar Energy Potential
  • Cost/Efficiency Of Photovoltaic Technology
  • Solar Energy Conversion Strategies
  • Hydrogen Economy: Original Vision
  • Impact Of Battery Technology Developments
  • Impact Of Biofuels Developments
  • Impact Of Electric Storage Technology Advances
  • Modifications To The Original HE Vision
  • HyWays Roadmap
  • Other Studies
  • National Hydrogen Association Report
  • HE Opponents
  • Re-Envisioning HE
  • Key Differences
  • Hierarchy Of Sustainable Hydrogen Centers
  • Hydrogen And Electricity As Energy Vectors
  • Resource Constraints
  • WWS Power
  • No Reliance On Nuclear Power
  • Coal-Fired Power And CCS Not Necessary
  • Hydrogen And Battery Storage In Transport
  • BEVs and HFCVs
  • Hydrogen For Energy Storage On Centralized Grids
  • Energy Security
 
FUEL CELLS
  • Overview
  • Non-Automotive Fuel Cells
  • Fuel Cell Technologies
  • 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
  • Regenerative Fuel Cells
  • Comparison Of Fuel Cell Technologies
  • Potential Markets
  • Five Levels Of Suppliers
  • Backup Power
  • Material Handling
  • Combined Heat And Power
  • Micro And Small CHP Applications
  • Research, Development And Demonstration Activity
  • US DOE Advanced Manufacturing Office
 
MARKET OVERVIEW
  • Hydrogen Market Size
  • Market By Application
  • Refinery Captive Vs. Outsourced Production
  • Oil Refining And Hydrogen Intensity
  • Hydrogen Market Shares
  • Refinery Market Drivers
  • New Markets For Hydrogen
  • Transportation
  • Automobiles
  • Buses
  • Power Generation
  • Competitive Threat of Low Gas Prices
  • Fuel Cell Market
  • Competitive Environment
 
 
FIGURES
1.) What Could The Production And Use Of Solar Fuels Look Like
2.) Photosynthesis: Nature's Way Of Making Solar Fuel
3.) Solar Energy Around The Clock
4.) Routes To Solar Fuels
5.) Solar Hydrogen Energy Production And Utilization Methods
6.) Schematic Of A PV Hydrogen Production System
7.) Schematic Of A Generic PEC Photocell
8.) Metal Oxide Solar Hydrogen Production System
9.) Schematic Of A Solar Thermal Hydrogen Production System
10.) Roadmap Of Hydrogen Production Pathways: 2012-2030
11.) Steam Methane Reforming Vs. Gasification of Hydrogen: Production Process Schematic
12.) Direct And Electrolytic Routes To Production of Hydrogen Using Renewable Energy Sources
13.) Global Shift To Complex Refining
14.) US Department Of Energy Projected High-Volume Cost of Hydrogen Production Delivered—Status: 2005-2020
15.) History Of World Energy Production By Source Type (EJ/Year): 1900-2010
16.) Shares Of Various Energy Sources In World Energy Production, Showing Energy Transitions (%): 1900-2010
17.) Projections Of Energy Demand And Supply: 1970-2100
18.) Specific Energy Of Large-Scale Fuels
19.) Power Units: The Terawatt Challenge
20.) Global Energy Consumption By Source: 2001
21.) Global Energy Reserves And Resources By Type
22.) Global Primary Power Use By Source And Year: 1990-2050
23.) Nuclear Requirements To Get 10 TW Of Power
24.) US Saline Reservoirs For CO2 Burial And DOE Sequestration Goals
25.) Global Solar Land Area Requirements For 20 TW Of Power
26.) Cost/Efficiency Of Photovoltaic Technology
27.) Photosynthesis Energy Conversion Strategies
28.) Power Park Fuel System Concept
29.) Fuel Cell Vs Photoelectrolysis Cell
30.) Efficient Solar Water Splitting
31.) Proposed Hierarchy Of Sustainable Hydrogen Centers
32.) Mix Of Renewable Energy Sources To Meet Total Global Energy Demand In 2030
33.) Components Of Battery Electric Vehicle And Fuel Cell Electric Vehicle Systems Charged From An Electricity Grid With RE Input
34.) Schematic Illustration Of A Single Cell
35.) A Fuel Cell System Schematic Diagram
36.) Polymer Electrolyte Membrane Fuel Cell
37.) Alkaline Fuel Cell
38.) Phosphoric Acid Fuel Cell
39.) Molten Carbonate Fuel Cell
40.) Solid Oxide Fuel Cell
41.) Relative Electrical And Thermal Conversion Efficiencies Of Fuel Cell Technologies
42.) US CHP Capacity By Sector: 2010
43.) US CHP Capacity By Technology: 2006
44.) Small CHP (100 kW to 5 MW) Site Count Distribution In The United States: 2010
45.) Small CHP (100 kW to 5 MW) Generating Capacity Distribution in the United States
46.) Commercial Small CHP Capacity Distribution In The United States By Size: 2010
47.) US Clean Energy Patents Index By Technology: 2002-2011
48.) Non-US Countries Fuel Cell R&D Activity: 2007-2016
49.) Major Auto Manufacturers' Activities and Plans For FCEVs
50.) Fuel Cell System Cost Targets: 2002-2017
51.) Electrolyzer Stack Costs: 2002-2011
52.) Stack Cost Progress By Component 2007-2011
53.) DOE Distributed Water Electrolysis Cost Targets: 2006-2020
54.) Projected Hydrogen Production Cost Contribution By Input
55.) US DOE Advanced Manufacturing Office Focus
56.) Air Liquide Industrial Synergies Development Model
57.) Air Products & Chemicals Non-Captive Hydrogen and Refinery Hydrogen Market Share and Tonnage Sales by Product: 2011
58.) Air Products & Chemicals Major Project List: 2013-2014
59.) Telecom Fuel Cells Vs. Gensets And Batteries
60.) Cellular Base Station Additions By Region (%): 2011
61.) Ceramic Fuel Cells' Stack Technology
62.) Ceramic Fuel Cells' Common Platform
63.) Fuel Cells In The Home
64.) BlueGen Used In Europe
65.) BlueGen Used In Australia
66.) BlueGen-Net Screen
67.) Gennex
68.) Ceramic Fuel Cells' Product Modularity And Flexibility
69.) Return On Capital Drives Praxair Shareholder Value
70.) Praxair Gulf Coast Area Hydrogen Pipelines
71.) Praxair Chicago Area Hydrogen Pipelines
72.) Praxair Pipeline Complexes at Caojing, China
73.) Praxair Steam Methane Reformers
74.) Praxair Backlog By Project: 3Q 2012
 
TABLES
1.) Various Solar Hydrogen Production Systems With Their Types, Processes, Process Description And End Products
2.) Hydrogen Production Costs By Technology
3.) Some Physical Properties of Hydrogen
4.) Energy Densities Of Common Fuels And Hydrogen
5.) Comparison of Hydrogen With Other Fuels
6.) ASU Gases Vs. Hydrogen
7.) Gas Conversion Factors
8.) SMR Mass & Energy Unit Balance
9.) Typical Hydrogen Financials
10.) Simple vs. Complex Refineries
11.) Non-Refining Hydrogen Applications
12.) US Department Of Energy Hydrogen And Fuel Cells Funding: 2007-2011
13.) US ARRA Fuel Cell Grants By Company And Application (US$ Million): 2012
14.) World Energy Intensity: 1900-2000
15.) World Electric Energy Intensity: 1980-2030
16.) World Renewable Energy Resources By Type
17.) Comparison Of Fuel Cell Technologies
18.) Small CHP (100 kW to 5 MW) Capacity And Site Count Distribution By Technology, Fuel Type And Sector: 2010
19.) Selected Small CHP Building Project Basic Economic Factors
20.) Global Hydrogen Market-Captive Vs. Outsourced (USD Billion): 2012-2023
21.) Global Hydrogen Market By Application (USD Billion): 2013
22.) Global Hydrogen Volume Outlook-Captive Vs. Outsourced: 2009-2015
23.) Global Hydrogen Demand, Refining Capacity And Hydrogen Intensity: 2009-2025
24.) Global Outsourced Hydrogen Suppliers' Market Shares (USD Million): 2012
25.) Global Outsourced Hydrogen Market By Supplier And Region: 2010-2015
26.) Global Oil Refining Throughputs (Thousand Barrels Daily): 1980-2011
27.) Fuel Cell Vehicles By Type And Manufacturer: 2012
28.) North American Bus Production By Product Type (Units, USD): 2010
29.) Global Energy Consumption By Primary Fuel And Country (Million Tonnes Of Oil Equivalent): 2011
30.) Global Power Generation Market By Region And Fuel Type (USD Billions): 2000-2020
31.) Natural Gas And Crude Oil Prices By Source (USD/Million BTU): 1984-2011
32.) Global Fuel Cell Market (MW, ASP, US$): 2008-2017
33.) Fuel Cell Manufacturing, Components And Services Companies: 2012
34.) Public Fuel Cell Company Revenues: 2007-2012
35.) Hydrogen Sector Companies And Their Products: 2012
36.) Praxair Sales Growth Plan By Market: 2010-2015
37.) Praxair Sales Breakdown By Product And Region: 2010
38.) Praxair Financial Targets By Segment: 2010-2015
39.) Praxair Enclaves By Country And Capacity
40.) Praxair Significant Hydrogen Projects Recently Completed/In Construction By Size And Date
Air Liquide SA
(Background, Large Industries, Industrial Merchant, Electronics, Engineering And Construction, Operations, Pipelines, Blue Hydrogen, Horizon Hydrogène Énergie (H2E) Program, Fuel Cells & Hydrogen Joint Undertaking, Competition, Recent Events, Yanbu' Industrial City Project, Energy Concerns And Environmental Protection, CO2 Directive In Europe, ALH2E, Outlook)
 
Air Products & Chemicals, Inc.
(Background, Merchant Gases, Tonnage Gases, Electronic And Performance Materials, Equipment And Energy, Hydrogen, Hydrogen Sales, Hydrogen Operating Margins, Hydrogen Market Share, Tonnage Major Projects, Recent Events, Outlook)
 
Ballard Power Systems Inc.
(Background, Fuel Cells, IdaTech, Telecom, Telecom Backup Power Market, Telecom Opportunities, Customers)
 
Ceramic Fuel Cells Limited
(Background, Fuel Cells, Technology, Products, BlueGen, Gennex, Value Engineering, Scaling Up, Key Markets, Germany, United Kingdom, The Netherlands and Belgium, Australia, North America, Japan, Marketing, Manufacturing, German Plant, Supply Chain, Real World Operation)
 
FuelCell Energy, Inc.
(Background, Fuel Cells, Products, Technology, Advantages, Markets, Production)
 
Hydrogenics Corporation
(Background, Fuel Cells, OnSite Generation, Power Systems, Distribution, Future Markets, New Product Designs)
 
Linde AG
(Background, Hydrogen, Clean Energy Partnership/ H2 Mobility, GCL-Poly Energy, Linde/Daimler Initiative, California AC Transit, Jilin Chemical Park, Linde Engineering)
 
Praxair, Inc
(Background, Atmospheric Gases, Process Gases, Industrial Gases Distribution, On-Site, Merchant, Packaged Gases, International, R&D, Hydrogen, Supply Options, Applications, Growth Drivers, Outlook)
 
Taiyo Nippon Sanso Corporation
(Background, Hydrogen)
 
UTC Power, LLC/ClearEdge Power
(Background, Fuel Cells, Buildings, Buses, Automobiles, Energy Security)
 
RESEARCH ORGANIZATION PROFILES
  • Argonne-Northwestern Solar Energy Research Center Energy Materials Center at Cornell
  • Center for Bio-Inspired Solar Fuel Production Arizona State University
  • DOE Joint Center for Artificial Photosynthesis Caltech
  • Dutch Institute for Fundamental Energy Research
  • Energy Frontiers Research Centers EFRC US Department of Energy
  • Energy Materials Lab SolarCAP
  • EU Commission SOLAR-H
  • Helios Solar Energy Research Center (SERC) Lawrence Berkeley National Lab
  • Korea Center for Artificial Photosynthesis
  • Light Matter Interaction Caltech
  • NSF Center for Chemical Innovation: Solar Fuels Caltech
-Solar Energy Conversion Cluster
  • SolarChem
  • Solar Fuels & Next Generation Photovoltaics U. North Carolina
  • Swedish Consortium for Artificial Photosynthesis
  • Other Relevant University Based Energy Frontier Research Centers (EFRCs)
  • Additional Programs
  • NSF Programs Supporting University-Industry Research Collaboration
  • Technology Lifecycle – NIST ATP Model
  • World Centers positioned on NIST Model

 

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