Stationary Fuel Cell Market Opportunities, Strategies, and Forecasts, 2006 to 2012

Table of Contents

STATIONARY FUEL CELL EXECUTIVE SUMMARY

• Industrialization Requires Sustainable, Highly Efficient Energy
• Fuel Cell Cogeneration
• Stationary Fuel Cell Market Development
• Stationary Fuel Cell Growth
• Stationary Fuel Cell Market Shares
• Worldwide Stationary Fuel Cell Market Share Analysis For Campus and Residential Markets
• Stationary Fuel Cells Market Forecasts
• Market For Continued Fuel Cell Commercialization
• On Grid And Off Grid Issues
• PEM (Polymer Electrolyte Membrane) Fuel Cell Modules

1. STATIONARY FUEL CELL MARKET DYNAMICS AND MARKET DESCRIPTION

• 1.1 Industrialization Requires Sustainable, Highly Efficient Energy
  • 1.1.1 Fuel Cell Cogeneration
  • 1.1.2 Stationary Fuel Cells Address Global Energy Challenge
  • 1.1.3 Petroleum
• 1.2 Value Of Export Market Electricity
• 1.3 Fuel Cell Operation
  • 1.3.1 Fuel Cells Definition
  • 1.3.2 Fuel Cell Insulating Nature Of The Electrolyte
  • 1.3.3 Inconsistency Of Cell Performance
  • 1.3.4 Fuel Cell Performance Improvements
  • 1.3.5 Transition To Hydrogen
• 1.4 Fuel Environmental Issues
  • 1.4.1 Environmental Benefits Of Using Fuel Cell Technology
  • 1.4.2 Greenhouse Gas Emissions
• 1.5 Battery Description
• 1.6 Fuel Cell Functional Characteristics
• 1.7 Water In A Fuel Cell System
• 1.8 Power Of A Fuel Cell
  • 1.8.1 Gas Control
  • 1.8.2 Temperature Control
• 1.9 Fuel Cell Converts Chemical Energy Directly Into Electricity And Heat
• 1.9.1 Types Of Fuel Cells
• 1.10 Hydrogen Fuel Cell Technology
  • 1.10.1 Types Of Fuel Cells
  • 1.10.2 Alkaline Fuel Cells
  • 1.10.3 Phosphoric Acid Fuel Cells
  • 1.10.4 Molten Carbonate Fuel Cells
  • 1.10.5 Solid Oxide Fuel Cells
  • 1.10.6 PEM Technology
  • 1.10.7 Proton Exchange Membrane (PEM) Fuel Cells
  • 1.10.8 PEM Fuel Cells
  • 1.10.9 Proton Exchange Membrane (PEM) Fuel Cell
  • 1.10.10 Proton Exchange Membrane (PEM) Membranes And Catalysts
  • 1.10.11 Common Types Of Fuel Cells
• 1.11 Stationary Power Applications
  • 1.11.1 Traditional Utility Electricity Generation
• 1.12 On Grid And Off Grid Issues
  • 1.12.1 Stationary Public Or Commercial Buildings Fuel Cell Market
  • 1.12.2 Distributed Power Generation
• 1.13 Impact Of Deregulation
  • 1.13.1 Excess Domestic Capacity
  • 1.13.2 Power Failures
• 1.14 Fuel Cell Issues
  • 1.14.1 Solid Oxide Fuel Cells
  • 1.14.2 Fuel Cell Workings
  • 1.14.3 Environmental Benefits Of Fuel Cells
  • 1.14.4 Fuel-To-Electricity Efficiency
• 1.15 Boilers
  • 1.15.1 Domestic Hot Water
  • 1.15.2 Space Heating Loops
  • 1.15.3 Absorption Cooling Thermal Loads
• 1.16 Fuel Cell Reliability
  • 1.16.1 Power Quality
  • 1.16.2 Licensing Schedules
  • 1.16.3 Modularity
• 1.17 Fuel Cell Supply Infrastructure
• 1.18 AFC Fuel Cells
• 1.19 Laws And Regulations
  • 1.19.1 National Hydrogen Association
  • 1.19.2 Military Solutions

2. STATIONARY FUEL CELL MARKET SHARES AND MARKET FORECASTS

• 2.1 Stationary Fuel Cells Combined Heat and Power (CHP)
  • 2.1.1 Stationary Fuel Cells Market
  • 2.1.2 Fuel Cells Portable Market
  • 2.1.3 Fuel Cells Transportation Market
  • 2.1.4 Worldwide Stationary Fuel Cell Market Growth Drivers
• 2.2 Fuel Cell Market Forecasts
  • 2.2.1 Fuel Cell Home Power (1 to 50 kW)
  • 2.2.2 Fuel Cell Campus Institutional Power (100 Kw To 5 Mw)
  • 2.2.3 Fuel Cell Remote Power (100 Kw-5 Mw)
• 2.3 Utility SOFC and Phosphoric Acid Fuel Cells (PAFC)
  • 2.3.1 Utility and SOFC and Phosphoric Acid Fuel Cells Market Shares
  • 2.3.2 United Technologies NASA Manned Space Flight
  • 2.3.3 United Technologies / UTC Power
  • 2.3.4 United Technologies Commercial Building PureComfort™
  • 2.3.5 Phosphoric Acid Fuel Cells (PAFC) Utility Market Forecasts
  • 2.3.6 Phosphoric Acid Fuel Cells Market Analysis: High Temperature PEM / Low temperature PAFCs
  • 2.3.7 Solid Oxide Fuel Cell (SOFC) Market Participants
  • 2.3.8 Siemens Westinghouse Power SOFC
  • 2.3.9 Mitsubishi Heavy Industries SOFC
• 2.4 GE SECA Fuel Cell Development Program
  • 2.4.1 Fuel Cell Energy Solid Oxide Fuel Cell Stack Design
  • 2.4.2 Fuel Cell Technologies Solid Oxide Fuel Cell System
  • 2.4.3 Fuel Cell Technologies Strategic Relationship with Siemens and Toto
  • 2.4.4 Delphi SOFC
  • 2.4.5 SOFCo-EFS Multilayer, Planar SOFC Stack
  • 2.4.6 ZTEK
  • 2.4.7 Ion America SOFC
• 2.5 SOFC Grid Utility Stationary Fuel Cell Power
  • 2.5.1 United Technologies UTC Power SOFC Fuel Cells
  • 2.5.2 Siemens Stack Design Increases Power Density
  • 2.5.3 Siemens SECA Program Schedule
  • 2.5.4 Siemens SECA Phase 2
  • 2.5.5 Siemens SECA Phase 3
  • 2.5.6 Siemens Power Generation Tubular SOFC Technology
  • 2.5.7 GE SECA Fuel Cell Prototype System
  • 2.5.8 Rolls Royce SOFC Stationary Fuel Cell System
  • 2.5.9 SOFC Commercial Building Fuel Cells
  • 2.5.10 Inexpensive 5-kW SOFC On A 5-Year Horizon?
• 2.6 Molten Carbonate Fuel Cell (MCFC)
  • 2.6.1 Molten Carbonate Uses Nickel and Stainless Steel as Core Technology
  • 2.6.2 Molten Carbonate Fuel Cell (MCFC) Market Forecasts
• 2.7 PEM Fuel Cell Technology
• 2.8 Plug Power Systems
  • 2.8.1 Plug Power PEM
  • 2.8.2 Plug Power GenCore
  • 2.8.3 Plug Power GenCoreR Telecommunications Systems
  • 2.8.4 Plug Power GenSys
  • 2.8.5 PEM Stationary Fuel Cell Systems
  • 2.8.6 Telecom Fuel Cell Back Up Power Systems
  • 2.8.7 Proton Exchange Membrane Fuel Cell (PEM) Backup Power Market Forecasts
  • 2.8.8 Government Support for Fuel Cell Technology
  • 2.8.9 PEMFC Efficiency
  • 2.8.10 Challenges for PEMFC Systems
  • 2.8.11 Operating Pressure
  • 2.8.12 Long Term Operation
  • 2.8.13 Proton Exchange Membrane Fuel Cell (PEM) Multiple Dwelling Unit Market Forecasts
  • 2.8.14 Proton Exchange Membrane Fuel Cell (PEM) Residential Market Forecasts
• 2.9 PEM Manufacturers of North America
• 2.10 MCFC, SOFC, PEMFC Projected Cost Long Term
• 2.11 Stationary Fuel Cells Strengths and Weaknesses
• 2.12 Fuel Cell Return On Investment Analysis
• 2.13 Addressable Market
• 2.14 Fuel Cell Market Regional Analysis
  • 2.14.1 Fuel Cells California
  • 2.14.2 Fuel Cells U.S.
  • 2.14.3 U.S. Solid-State Energy Conversion Alliance SECA
  • 2.14.4 U.S. Boston Area Acumentrics, Cell Tech Power, Protonex Technology of Southborough, Ztek in Woburn, and Cambridge sister companies TIAX and Nuvera Fuel Cells
  • 2.14.5 Fuel Cells Canada
  • 2.14.6 Fuel Cells in Canada
  • 2.14.7 Fuel Cells Canada
  • 2.14.8 Fuel Cells Japan
  • 2.14.9 New Energy Foundation Project (NEF) And The Japan Gas Association Matsushita Electric
  • 2.14.10 Sales Prospects Japan
  • 2.14.11 New Sunshine Project (Japan)
  • 2.14.12 Fuel Cell Development in Japan
  • 2.14.13 Fuel Cell Cogeneration in Japan
  • 2.14.14 Tokyo-Based JGA Millennium Program,
  • 2.14.15 Japanese Government Subsidies in 2006
  • 2.14.16 Fuel Cell Cogeneration In Japan
  • 2.14.17 Establishing Codes And Standards Are Very Important For Advancing Fuel Cell Systems In Japan
  • 2.14.18 Fuel Cells Germany
  • 2.14.19 EPRI Strategic Planning
  • 2.14.20 Electric Power Research Institute (EPRI) Scenarios: Fuel Prices And Environmental Mitigation Costs High
  • 2.14.21 Electric Power Research Institute (EPRI) Scenarios: Evolution Of Fuel Prices And CO2 Costs
• 2.15 Solid-Oxide Fuel Cell Stack Prices

3. STATIONARY FUEL CELL PRODUCT DESCRIPTION

• 3.1 Phosphoric Acid Utility Fuel Cells
• 3.2 UTC Powers Largest U.S. Commercial Fuel Cell System Long Island Call Center & Administration Building With Electricity and Heat Cogeneration
  • 3.2.1 UTC Power PureCell™ 200 power solution
  • 3.2.2 UTC Power PureCell™Environmentally Sound Design
  • 3.2.3 UTC Power PureCell™ 200
  • 3.2.4 UTC Power Solution Benefits
  • 3.2.5 UTC Power PureComfort™ Power Solution
  • 3.2.6 UTC Power Sustainability
  • 3.2.7 UTC Power Environmental Stewardship
  • 3.2.8 UTC Power Stationary Fuel Cell
  • 3.2.9 UTC Power PureCell™ Solution Heat For Cogeneration Applications
  • 3.2.10 UTC Power PureCell™ Continuous Power During Grid Outages
  • 3.2.11 UTC Power PureComfort™ Solution
  • 3.2.12 UTC Power PureComfort™ Hotel
  • 3.2.13 UTC Power EPA and DOE Fuel Cell Sites
  • 3.2.14 Fuel Cells In New York Power Grid
  • 3.2.15 United Technologies PureCell™ 200 Fuel Cell Power Solution
  • 3.2.16 United Technologies PureCell™ 200 Fuel Cell Power Solution
  • 3.2.17 UTC Power, United Technologies PureComfort™ Combined Cooling, Heating And Power
  • 3.2.18 UTC Power, United Technologies Kaiser Permanente, a US Health Maintenance Organization four PureComfort PC25s3.3 Fuji Electric Company PAFC
  • 3.3.1 Fuji Electric
• 3.4 Mitsubishi Electric PAFC
• 3.5 Toshiba Stationary Fuel Cell PAFC
• 3.6 Toshiba IFC
  • 3.6.1 UTC and Toshiba
• 3.7 Matsushita Electric PEFC
• 3.8 HydroGen llc2 MW Power Island, Built Up From 5 Identical 400 kW Modules PAFC
  • 3.8.1 Westinghouse 400 kW Modules
• 3.9 Solid Oxide Fuel Cells (SOFC)
  • 3.9.1 Complete Fuel Cell Stacks
  • 3.9.2 SOFC Significant Advantages
  • 3.9.3 All-Ceramic Interconnect for Use in Solid-Oxide Fuel Cell Stacks
  • 3.9.4 SOFC Interconnect Fabrication Processes
  • 3.9.5 SOFC Fuel Cells Operate At Low Voltages Stacked In Series To Produce Usable Power
  • 3.9.6 Material Cosintered With The Main Body Of The Laminated Structure
  • 3.9.7 A Seal Material Around The Perimeter Of The Cells
• 3.10 Siemens Power Generation Stationary Solid Oxide Fuel Cells
  • 3.10.1 Siemens Stack Design Increases Power Density
  • 3.10.2 Siemens Power Generation Tubular SOFC Technology
  • 3.10.3 Siemens Power Generation Tubular SOFC Technology
  • 3.10.4 Siemens Power Generation Tubular SOFC Technology
  • 3.10.5 Siemens Benefits and Features of Solid Oxide Fuel Cell (SOFC) Technology
  • 3.10.6 Siemens Power Generation SOFC Product Commercialization Cogeneration System
  • 3.10.7 Siemens Next Generation SOFC SECA - Solid State Energy Conversion Alliance
  • 3.10.8 Siemens SOFC Power Generation System In The Kw Range
  • 3.10.9 Siemens Power Generation Develops Low Cost Cathode Material
  • 3.10.10 Siemens Stack Design Increases Power Density
  • 3.10.11 Siemens Westinghouse / Fuel Cell Technologies Strategic Partnership
• 3.11 Mitsubishi Heavy Industries SOFC
  • 3.11.1 PEFC for household use
• 3.12 GE SECA Fuel Cell Development Program
• 3.13 GE and Delphi Meet Stack Cost Goal
  • 3.13.1 GE SOFC System
  • 3.13.2 GE Megawatt Solid Oxide Fuel Cell (SOFC)-Coal Based Power System
  • 3.13.3 GE Hydrogen Energy
  • 3.13.4 GE Hydrogen Energy Research Focus
  • 3.13.5 GE Energy Distribution & Storage
  • 3.13.6 GE Hydrogen End Use:
• 3.14 FuelCell Energy Solid Oxide Fuel Cell Stack Design
  • 3.14.1 FuelCell Energy Stack
  • 3.14.2 FuelCell Energy Sheraton Installation
  • 3.14.3 FuelCell Energy 250- kilowatt
  • 3.14.4 FuelCell Energy: Japan Represents A Significant Market
  • 3.14.5 Fuel Cell Energy
  • 3.14.6 FuelCell Energy Direct FuelCells
  • 3.14.7 FuelCell Energy 300 kW Single Stack DFC Power Plant
• 3.15 Fuel Cell Technologies Solid Oxide Fuel Cell System
  • 3.15.1 Fuel Cell Technologies Strategic Relationship with Siemens and Toto
  • 3.15.2 Fuel Cell Technologies Alpha 5kW
  • 3.15.3 TOTO / Fuel Cell Technologies Solid Oxide Fuel Cell Strategic Relationship
• 3.16 Delphi SOFC
  • 3.16.1 Delphi Developmental Fuel-Flexible Solid Oxide Fuel Cell Power System
• 3.17 SOFCo-EFS Multilayer, Planar SOFC stack
  • 3.17.1 SOFCo Commercial Targets For Cost And Performance
  • 3.17.2 SOFCo All-Ceramic Interconnect for Use in Solid-Oxide Fuel Cell Stacks
• 3.18 SOFCo-EFS
  • 3.18.1 SOFCo-EFS Co-Flow Multi-Layer Ceramic MLC Interconnect
  • 3.18.2 SOFCo-EFS 5-Cell Co-Flow Stack
  • 3.18.3 SOFCo-EFS Commercial Scale Stack
  • 3.18.4 McDermott International / SOFCo-EFS
  • 3.18.5 SOFCo-EFS
• 3.19 Acumentrics Solid Oxide Fuel Cells
  • 3.19.1 Acumentrics Small Tubes
  • 3.19.2 Acumentrics Planar Fuel Cells
  • 3.19.3 Acumentrics Sealing As A Design Issue
  • 3.19.4 Acumentrics Tubular SOFC System
  • 3.19.5 Acumentrics Micro-Chp Joint Development Agreement In Europe With MTS Group
  • 3.19.6 Acumentrics 5kw SOFC Fuel Cell System
  • 3.19.7 Acumentrics Clean Quiet Fuel Cell Power for Distributed Generation
  • 3.19.8 Acumentrics Fuel Cell Systems
• 3.20 CellTech Power SOFC
• 3.21 Ztek Solid Oxide Fuel Cell
  • 3.21.1 ZTEK EHVAC™ System
  • 3.21.2 ZTEK Integrated SOFC and Absorption Chiller/Heater:
• 3.22 Delavan Solid Oxide Fuel Cell (SOFC)
  • 3.22.1 Delavan SECA Fuel Cell Development Program
• 3.23 Ion America SOFC
  • 3.23.1 Ion America Fuel Cell
  • 3.23.2 Ion America Solid Oxide Fuel Cells Power Paradigm
• 3.24 Rolls Royce Solid-Oxide Fuel Cell System (SOFC) and Fuel Cells
  • 3.24.1 RR Converts Waste Heat Into Electricity
  • 3.24.2 Rolls Royce Solid-Oxide Fuel Cell System
  • 3.24.3 Rolls Royce Solid-Oxide Fuel Cell Megawatt Scale, Stationary Power System
  • 3.24.4 Rolls Royce Fuel Cell System
• 3.25 Proton Exchange Membrane PEM Fuel Cell
• 3.26 Ballard Power Systems PEM
  • 3.26.1 Ballard Prototypes of Third Generation Long-life Fuel Cell for Residential Cogeneration
  • 3.26.2 Ballard Power Systems And Ebara Ballard First Generation Pre-Commercial 1kw Stationary Combined Heat And Power Proton Exchange Membrane (PEM) Fuel Cell Generator
  • 3.26.3 Ebara Ballard Commercialization Of Fuel Cell Cogeneration
  • 3.26.4 Ebara Ballard Stationary Reduced Cost And Increased Durability To A Targeted Lifetime Of 40,000 Hours
  • 3.26.5 Ballard / Ebara Cogeneration Fuel Cell Stack
  • 3.26.6 Ballard 1 Kw Combined Heat And Power Cogeneration Fuel Cell Stack
• 3.27 Plug Power PEM
  • 3.27.1 Plug Power GenCore
  • 3.27.2 Plug Power GenCoreR Telecommunications Systems
  • 3.27.3 Plug Power GenSys
  • 3.27.4 Plug Power Home Energy Station
  • 3.27.5 Plug Power GenSite
  • 3.27.6 Plug Power GenDrive
  • 3.27.7 Plug Power Agreements With Honda For Next Phase Of Home Energy Station And R&D Collaboration
  • 3.27.8 Plug Power / Honda On-Site Hydrogen Generation
  • 3.27.9 Plug Power / Honda Home Refueling
  • 3.27.10 Plug Power and Ballard Power Systems Advanced PEM Fuel Cell System
  • 3.27.11 Plug Power Five-Kilowatt Fuel Cell
  • 3.27.12 General Hydrogen PEM HydricityR Pack Power Systems
  • 3.27.13 General Hydrogen Fuel Cell HydricityR Packs
• 3.28 ReliOn Proton Exchange Membrane Fuel Cell
• 3.29 ReliOn PEM Fuel Cell
• 3.30 IdaTech PEM
  • 3.30.1 IdaTech I-1000R 1kW PEM Fuel Cell
• 3.31 Hoku Scientific / SANYO PEM
• 3.32 Nuvera Fuel Cells PEM
  • 3.32.1 Nuvera Fuel Cells Multi-Fuel Reforming
  • 3.32.2 Nuvera Fuel Cells Avanti(TM) Fuel Cell Power Module Used By Japan Gas Association (JGA)
• 3.33 Protonex (PEM)
  • 3.33.1 Protonex High Performance
  • 3.33.2 Protonex Delivered "P1" To The U.S. Military
  • 3.33.3 Protonex Power Platforms Products
• 3.34 Sanyo Electric PEM
  • 3.34.1 Sanyo / Hoku
• 3.35 Alkaline Fuel Cell
  • 3.35.1 Alkaline Electrolyte
  • 3.35.2 Astris Energi Alkaline Fuel Cell
  • 3.35.3 Astris Fuel Cell Units Positioned To Begin Pilot Production Of Next -Generation AFC at its Czech Republic
  • 3.35.4 Astris Energi Powerstack™tm) MC250 Product for Queen`s-RMC Fuel Cell Research Centre
  • 3.35.5 Astris Energi Fuel Cells, Generator And Test Equipment For Electronic Machining s.r.l.
  • 3.35.6 Astris Energi
  • 3.35.7 Astris Energi Powerstack™ MC250
  • 3.35.8 AFC Power Generators
  • 3.35.9 AFC Test Equipment
  • 3.35.10 Astris Applications
  • 3.35.11 Astris Alkaline Fuel Cell (AFC) Applications
  • 3.35.12 Astris Energi E8 Portable Generator
  • 3.35.13 GreenVOLT™ 6 Watt Mini Alkaline Fuel Cell
  • 3.35.14 GreenVOLT™
  • 3.35.15 GreenVOLT™ SAM-Cell
• 3.36 Apollo Energy Systems
• 3.37 Molten Carbonate Fuel Cell (MCFC)
• 3.38 CFC-MTU Solutions (German part of Daimler Chrysler / MTU) MCFC
  • 3.38.1 MTU CFC Technological Partnership Molten Carbonate Fuel Cell (MCFC)
  • 3.38.2 MTU Fuel Cells Molten Carbonate Fuel Cell (MCFC) HotModule®
  • 3.38.3 Technology of the MTU HotModule®
  • 3.38.4 Components of the MTU HotModule® Fuel Cell Power Plant
  • 3.38.5 Fuel Cell Module
  • 3.38.6 Media Supply Module
  • 3.38.7 Inverter and Controls Module
  • 3.38.8 CFC-MTU Solutions (German part of Daimler Chrysler / MTU)
  • 3.38.9 CFC MTU HotModule® Local Heating Systems
• 3.39 Deutsches Zentrum
• 3.40 Gaskatel
• 3.41 Oy Hydrocell
• 3.42 ZAO Independent Power Technologies
• 3.43 Nanoparticle Materials
• 3.44 Five Star Technologies Nanoparticle Materials
  • 3.44.1 Five Star Technologies Energy/Industrial
  • 3.44.2 Five Star Technologies Catalysis
• 3.45 Zinc Fuel Cell. ZAFC
• 3.46 Powerair ZAFC
  • 3.46.1 Power Air Stationary And Back-Up Power
  • 3.46.2 Power Air OEM
• 3.47 CTP Hydrogen
• 3.48 Ovonic Fuel Cell

4. STATIONARY FUEL CELL TECHNOLOGY

• 4.1 Stationary Fuel Cell Company Analysis: Markets They Are Targeting, Power Ratings, And Cost Targets
  • 4.1.1 Acal Energy
  • 4.1.2 Acumentrics
  • 4.1.3 Agni
  • 4.1.4 AIR LIQUIDE / Axane Fuel Cell Systems
  • 4.1.5 Ansaldo Fuel Cells SpA-AFC
  • 4.1.6 Astris Energi
  • 4.1.7 Ballard Power Systems
  • 4.1.8 CellTech Power
  • 4.1.9 CFC-MTU Solutions (German part of Daimler Chrysler / MTU)
  • 4.1.10 Delphi
  • 4.1.11 FuelCell Energy
  • 4.1.12 Fuel Cell Technologies Strategic Relationship with Siemens and Toto
  • 4.1.13 Fuel Cell Technologies Ltd
  • 4.1.14 Fuel Cell Technologies
  • 4.1.15 Five Star Technologies
  • 4.1.16 Fuji Electric Company PAFC
  • 4.1.17 GE
  • 4.1.18 General Hydrogen
  • 4.1.19 GreenVOLT™
  • 4.1.20 HydroGen llc
  • 4.1.21 IdaTech I-1000R 1kW PEM Fuel Cell
  • 4.1.22 Ion America
  • 4.1.23 Matsushita Electric and Industrial Co., Ltd PEFC
  • 4.1.24 MesoGen
  • 4.1.25 Plug Power
  • 4.1.26 Power Air
  • 4.1.27 Protonex
  • 4.1.28 ReliOn
  • 4.1.29 Siemens
  • 4.1.30 Siemens Westinghouse
  • 4.1.31 SOFCo
  • 4.1.32 Sulzer Hexis
  • 4.1.33 TOTO
  • 4.1.34 United Technologies UTC Power
  • 4.1.35 Westinghouse / Siemens
  • 4.1.36 ZTEK
• 4.2 Cost-Effective And Efficient Generation Of Electricity, Heat And Air Conditioning
• 4.3 Stationary Fuel Cell Market Applications
• 4.4 Fuel Cell Operation
  • 4.4.1 Fuel Cells Generate Electrical Power As Backup Technologies
• 4.5 Fuel Cell South Africa (SA) Platinum
  • 4.5.1 Impala Platinum
  • 4.5.2 Anglo Platinum
• 4.6 Conventional Solid Oxide Fuel Cells Work
• 4.7 How-SOFC Works
• 4.8 Battery Function
  • 4.8.1 Ballard Secures Us$40 Million Carbon Fiber Materials Contract Extension With Major Automakers
• 4.9 Roadmap On Manufacturing R&D For The Hydrogen Economy
• 4.10 California Stationary Fuel Cell Collaborative
  • 4.10.1 California Stationary Fuel Cell Collaborative Benchmarking Focus
• 4.11 Solid State Energy Conversion Alliance (SECA)
  • 4.11.1 U.S. Department of Energy's Solid State Energy Conversation Alliance (SECA)
• 4.12 SECA Program at the National Technical Energy Laboratory
  • 4.12.1 Altergy Systems
  • 4.12.2 FuelCell Energy (FCE)
  • 4.12.3 IdaTech
  • 4.12.4 Plug Power
  • 4.12.5 UTC Power
  • 4.12.6 California Hydrogen Highway Network, ARB
• 4.13 Elements Of The California Hydrogen Highway Network Program:
• 4.14 Clean Energy Group
• 4.15 Energy Efficient Technology from UTC Power
  • 4.15.1 UTC Power Ritz-Carlton, San Francisco PureComfort™ 240M
• 4.16 Collaborative Effort By Many People
  • 4.16.1 Participants in the California Hydrogen Highway Network
• 4.17 Hydrogen
• 4.18 Queen's Fuel Cell Team (QFCT)
  • 4.18.1 Queen's-RMC Fuel Cell Research Centre (FCRC)
  • 4.18.2 Materials and Manufacturing Ontario (MMO)
• 4.19 Alkaline Fuel Cells (AFC)
  • 4.19.1 U.S. Department of Navy DoN Program on Hydrogen Vehicle Testing
  • 4.19.2 Sources of Info on Stationary Fuel Cells
  • 4.19.3 Related Links:
• 4.20 Government Regulation
  • 4.20.1 Stationary Fuel Cell Research and Other Organizations
  • 4.20.2 Stationary Fuel Cell Publications and Information
  • 4.20.3 Stationary Fuel Cell Government Resources
• 4.21 Fuel Cell South Africa (SA) Platinum
  • 4.21.1 Anglo Platinum / Johnson Matthey Leading Researcher In Platinum Market
  • 4.21.2 Impala Platinum

5. STATIONARY FUEL CELL COMPANY PROFILES 5-1

• 5.1 Acumentrics
  • 5.1.1 Acumentrics / U.S. Department of Energy Solid-State Energy Conversion Alliance (SECA)
• 5.2 Acal Energy
• 5.3 Adaptive Materials
• 5.4 Adelan
• 5.5 Agni
• 5.6 Alca Torda Applications
• 5.7 ALLPS Fuel Cell System GMBH
  • 5.7.1 System engineering
• 5.8 Anglo Platinum / Johnson Matthey Leading Researcher In Platinum Market
  • 5.8.1 Anglo Platinum / Johnson Matthey Fuel Cells
• 5.9 Angstrom Power
• 5.10 Ansaldo Fuel Cells SpA-AFC
• 5.11 Apollo Energy Systems -
  • 5.11.1 Apollo Energy Systems Stationary Applications
• 5.12 Aperion Energy Systems
• 5.13 Astris Energi
  • 5.13.1 Astris Alkaline Fuel Cell Electric Generators
• 5.14 Air Liquide / Axane Fuel Cell Systems
• 5.15 Finmeccanica Group / Ansaldo Fuel Cells
  • 5.15.1 Ansaldo Fuel Cells Series 2TW
• 5.16 Ball Aerospace & Technologies
• 5.17 Ballard
  • 5.17.1 Ballard Total Revenues
  • 5.17.2 Ebara
  • 5.17.3 Ebara Ballard
  • 5.17.4 Ebara Local Assembly
  • 5.17.5 Japanese Government Subsidies in 2006
  • 5.17.6 Ballard Reports Improves Sales in Power Generation Markets
  • 5.17.7 Ballard 2006 Corporate Objectives
  • 5.17.8 Ballard Power Systems
  • 5.17.9 Ebara Ballard
  • 5.17.10 Ballard Power Systems / Ebara Next Generation Of Cogeneration Fuel Cell Stack
  • 5.17.11 Ebara Ballard
  • 5.17.12 Ebara Ballard Precision Machinery
  • 5.17.13 Plug Power and Ballard Power Systems Collaboration
  • 5.17.14 Ebara Corporation
• 5.18 Baxi Group-
• 5.19 BCS Technology
• 5.20 Ceramic Fuel Cells Limited (CFCL)
• 5.21 Celex Power
• 5.22 CellTech Power LLC
• 5.23 Cellennium
• 5.24 Cenergie Corporation
• 5.25 Ceramatec
• 5.26 Ceres Power
• 5.27 Clean Fuel Generation-
• 5.28 CMR Fuel Cells
• 5.29 Connecticut Clean Energy Fund
• 5.30 Coval H2
• 5.31 CTP Hydrogen
• 5.32 Daimler Chrysler / MTU / CFC-MTU Solutions (German)
  • 5.32.1 MTU CFC Solutions GmbH Joint Venture
  • 5.32.2 CFC-MTU Solutions (German Part Of Daimler Chrysler / MTU)
• 5.33 Delphi
  • 5.33.1 Delphi Reports Fourth Quarter and Calendar Year 2005 Financial Revenue
  • 5.33.2 Delphi Technical Expertise
  • 5.33.3 Delphi Chapter 11 Cases
  • 5.33.4 Delphi And Partner Battelle Pacific Northwest Division / SECA Program
  • 5.33.5 Delphi Developmental Fuel-Flexible Solid Oxide Fuel Cell Functions
• 5.34 DE NORA s.p.a
• 5.35 Dias Analytic
  • 5.35.1 Dais
• 5.36 Donaldson Company
• 5.37 DTI Energy
• 5.38 Dupont
• 5.39 EBZ Entwicklungs-und Vertriebsgesellschaft Brennstoffzelle mbH
• 5.40 ESL Electric Auto Science
• 5.41 Electrotec
• 5.42 ElectroChem
• 5.43 Element 1 Power Systems
• 5.44 Electric Power Research Institute
• 5.45 Electronic Machining s.r.l.
• 5.46 Emprise -
• 5.47 Entegris -
• 5.48 Eneco
• 5.49 ENrG
• 5.50 Engelhard
• 5.51 Esoro
• 5.52 Evonyx-eVionyx
• 5.53 Five Star Technologies
• 5.54 Fuel Cell Components and Integrators
• 5.55 Fuel Cell Control
• 5.55.1 Fuel Maker
• 5.56 FuelCell Energy
• 5.57 Fuel Cells Ltd
• 5.58 Fuel Cells Canada
  • 5.58.1 Industry Canada (IC)
• 5.59 FuelCell Energy
  • 5.59.1 Direct FuelCell, DFC and DFC/Turbine Registered Trademarks
  • 5.59.2 FuelCell Energy U.S. Government Camp Pendleton 250 Kilowatts of Power
  • 5.59.3 FuelCell Energy Revenue
  • 5.59.4 FuelCell Energy Revenue Second Quarter 2006
  • 5.59.5 FuelCell Energy Corporate Developments
  • 5.59.6 FuelCell Energy Revenue
  • 5.59.7 FuelCell Energy Target Markets
  • 5.59.8 FuelCell Energy Financial Highlights
  • 5.59.9 FuelCell Energy FY 2005 Highlights
  • 5.59.10 FuelCell Energy Geographic Markets
  • 5.59.11 FuelCell Energy Pursuing Market Opportunities
  • 5.59.12 FuelCell Energy's Focus for 2006
  • 5.59.13 FuelCell Energy / NTT High Efficiency Power Plant
  • 5.59.14 FuelCell Energy / Marubeni
  • 5.59.15 FuelCell Energy Power Plant Sites Around The Globe
  • 5.59.16 FuelCell Energy Development Partner, Bridgeport Fuel Cell Park, LLC Wins Pre-Development Financing for 10-Megawatt Fuel Cell Power Plant
• 5.60 Fuel Cell Technologies Ltd.
  • 5.60.1 Fuel Cell Technologies
  • 5.60.2 FCT
  • 5.60.3 Fuel Cell Technologies Customers
  • 5.60.4 Fuel Cell Technologies Partners
  • 5.60.5 Fuel Cell Technologies Revenue
• 5.61 Fuel Cell Technologies
• 5.62 Fuji
  • 5.62.1 Fuji Electric Group
• 5.63 Franklin Fuel Cells
• 5.64 GE
  • 5.64.1 GE Solid Oxide Fuel Cell Program
  • 5.64.2 GE Major Energy Research Initiatives:
  • 5.64.3 GE Energy
• 5.65 GenCell
• 5.66 General Hydrogen
  • 5.66.1 General Hydrogen
  • 5.66.2 Ballard / General Hydrogen / Bridgestone In The US
  • 5.66.3 General Hydrogen Hydrogen-Powered HydricityR Pack ROI
  • 5.66.4 General Hydrogen
  • 5.66.5 General Hydrogen ROI
  • 5.66.6 General Hydrogen Backed By General Motors and Air Products
• 5.67 Gesellschaft fur Angewandte Technik mbH Greifswald (GAT)-
• 5.68 Global Thermoelectric!
• 5.69 GreenVOLT™
• 5.70 GreenVOLT™ Mini Fuel Cell
• 5.71 GTI -Gas Technology Institute
• 5.72 Hoku / Sanyo
• 5.73 Honda:
  • 5.73.1 Honda / Plug Power
• 5.74 HydroGen
  • 5.74.1 HydroGen Development Activities
  • 5.74.2 HydroGen Corporation and HydroGen, LLC
• 5.75 Idaho National Laboratory
• 5.76 IDACORP / IdaTech
  • 5.76.1 IdaTech ElectraGen(TM)3 Critical Backup Power Fuel Cell System
  • 5.76.2 IdaTech Positioning
  • 5.76.3 IdaTech Europe
  • 5.76.4 IdaTech CE Certification
  • 5.76.5 IdaTech Research And Development
• 5.77 Impala Platinum
• 5.78 Ion America
  • 5.78.1 Ion America Fuel Cell Company
  • 5.78.2 Ion America R&D unit in Chennai, India
  • 5.78.3 Ion America Chattanooga Enterprise Center
• 5.79 LOGANEnergy
• 5.80 McDermott International / SOFCo-EFS
• 5.81 Matsushita Electric Industrial Co. Ltd.
• 5.82 Mesoscopic Devices / MesoGen
• 5.83 Millennium Cell
• 5.84 Mitsubishi
• 5.85 NanoDynamics
• 5.86 Nu Element
• 5.87 Nuvera Fuel Cells
  • 5.87.1 Nuvera Fuel Cells / Rivoira / SIAD Group To Expand Laboratory Plant In Italy For Testing Hydrogen-Based Fuel Cell Systems
  • 5.87.2 Nuvera
  • 5.87.3 Nuvera Fuel Cells
  • 5.87.4 Nuvera
  • 5.87.5 Nuvera Fuel Cells 5 kW PowerFlow™ Fuel Cell Power Module
  • 5.87.6 Nuvera Shareholders
• 5.88 Palcan
• 5.89 Plug Power
  • 5.89.1 Plug Power Product Development and Commercialization
  • 5.89.2 Plug Power Distribution, Marketing and Strategic Relationships
  • 5.89.3 Plug Power Gone Away From Residential Fuel Cells to Back-Up Power Generation
  • 5.89.4 Plug Power / Tyco
  • 5.89.5 Plug Power / Honda
  • 5.89.6 Plug Power / Pemeas
  • 5.89.7 Plug Power / Engelhard
  • 5.89.8 Plug Power / DTE Energy
  • 5.89.9 Plug Power Revenue
  • 5.89.10 Plug Power Revenue
  • 5.89.11 Plug Power To Receive $217 Million Cash Investment From Interros And Norilsk Nickel
  • 5.89.12 Plug Power Distribution Partners To Access Targeted Markets In U.S. And South Korea
• 5.90 Pacific Telepoint
• 5.91 Parker Hannifin
• 5.92 PEMEAS Polymer Electrolyte Membrane (PEM)
• 5.93 Power Air Corporation
• 5.94 Praxair / Rivoira
  • 5.94.1 Praxair / SIAD
• 5.95 Protonetics
• 5.96 Protonex Technology Corporation
  • 5.96.1 Protonex Military Development Contract From Army Research Office
  • 5.96.2 Protonex to Advanced Soldier Power System Development
  • 5.96.3 Protonex Partnership With Millennium Cell
  • 5.96.4 Protonex Raises Second Round Financing - Portable Fuel Cell Global Design /Manufacturing Partner Parker Hannifin
  • 5.96.5 Parker Hannifin Investment In Protonex
  • 5.96.6 Protonex OEM Customers
  • 5.96.7 Protonex Portable Soldier Power
  • 5.96.8 Protonex Portable Battery Charger
  • 5.96.9 Protonex From Military Development to Commercial
  • 5.96.10 Protonex 150 Series Portable Power System
• 5.97 Proton Energy Systems
• 5.98 ReliOn
  • 5.98.1 ReliOn Investors:
  • 5.98.2 ReliOn / CEA Telecom Fuel Cells
  • 5.98.3 ReliOn / CEA Telecom
• 5.99 Rolls Royce Group
  • 5.99.1 Rolls Royce Fuel Cell Systems Group
• 5.100 RWE AG, Essen / RWE Fuel Cells
• 5.101 Solid State Energy Conversion Alliance (SECA)
• 5.102 Siemens
  • 5.102.1 Siemens Westinghouse / Fuel Cell Technologies Strategic Partnership
  • 5.102.2 Siemens SOFC Power Generation System In The Kw Range
  • 5.102.3 Siemens Power Generation Partners
  • 5.102.4 Siemens Networks
  • 5.102.5 Siemens Business Services
  • 5.102.6 Siemens Research and Development
  • 5.102.7 Siemens Information and Communication Networks
  • 5.102.8 Siemens Information and Communication Mobile Group
  • 5.102.9 Siemens Tubular Solid Oxide Fuel Cell Technology
• 5.103 Sulzer Group / Sulzer Hexis
• 5.104 Takagi Industrial Co., Ltd.
• 5.105 Toshiba-Polymer Electrolyte Fuel Cells (PEFC)
• 5.106 TOTO
• 5.107 Ultracell
• 5.108 Umicore
  • 5.108.1 Umicore pMembrain(tm) Membrane Electrode Assemblies
• 5.109 Unitec Ceramics
• 5.110 United Technologies
  • 5.110.1 United Technologies / UTC Power / UTC Fuel Cells
  • 5.110.2 Memorandum Of Understanding Signed Among Toshiba, IFC, and UTC
  • 5.110.3 UTC Fuel Cells (UTCFC), Formerly International Fuel Cells
  • 5.110.4 UTC Fourth Quarter Revenue
  • 5.110.5 UTC Fuel Cells
• 5.111 Viaspace / Direct Methanol Fuel Cell
• 5.112 ZAO Independent Power Technologies
• 5.113 ZTEK
  • 5.113.1 Ztek Corporation to Collaborate with U.S. Department of Navy On Hydrogen Fueling Station
  • 5.113.2 ZTEK Corporation

List of Tables and Figures

STATIONARY FUEL CELL EXECUTIVE SUMMARY

• Table ES-1
  • Commercialization Challenges Of The Stationary Fuel Cell Industry
• Table ES-2
  • Worldwide Cogeneration Utility and Campus Stationary Phosphoric Acid Fuel Cells (PAFC) and SOFC Shipment Market Shares, Dollars, 2005
• Table ES-3
  • Worldwide SOFC, PEM, PAFC, and Molten Carbonate Utility, Campus, and Remote Backup Stationary Fuel Cell Market Forecasts, Units and Dollars, 2006-2012
• Table ES-4
  • Worldwide SOFC, PEM, PAFC, and Molten Carbonate Utility, Campus, and Remote Backup Stationary Fuel Cell Market Forecasts, Units and Dollars, 2006-2012
• Table ES-5
  • Stationary Fuel Cell Market Driving Forces
• Table ES-6
  • Specific Areas Of Cost Reduction Investigation

STATIONARY FUEL CELL MARKET DYNAMICS AND MARKET DESCRIPTION

• Table1-1
  • Methods Of Producing Energy
• Table1-2
  • Key Aspects Of Fuel Cell Stack Costs
• Table1-3
  • Fuel Cell Operation
• Table1-4
  • Fuel Cell Characteristics
• Table1-5
  • Fuel Cell Description
• Table1-6
  • Fuel Cell Categories
• Table1-7
  • Fuel Cell Performance Improvements
• Table1-8
  • Environmental Concerns Relating To Energy
• Table1-9
  • Environmental Benefits Of Using Fuel Cell Technology
• Table1-10
  • Fuel Cell Advantages Compared To Internal Combustion Engine
• Table1-11
  • Low-carbon production systems
• Table1-12
  • Fuel Cell Functional Characteristics
• Table1-13
  • Characteristics Of Water In Fuel Cells
• Table1-14
  • Types Of Fuel Cells
• Table1-15
  • Classes Of Fuel Cells
• Table1-16
  • Fuel Cell Applications
• Table1-17
  • Types Of Fuel Cells
• Table1-18
  • Classes Of Fuel Cells
• Table1-19
  • Fuel Cell Applications
• Table1-20
  • Alkaline Fuel Cell Features
• Table1-21
  • Phosphoric acid fuel cells applications
• Table1-22
  • Phosphoric Acid Fuel Cell Features
• Table1-23
  • Molten Carbonate Fuel Cells
• Table1-24
  • Solid Oxide Fuel Cell Features
• Table1-25
  • Proton Exchange Membrane (PEM) Fuel Cell Functions
• Table1-26
  • Fuel Cell Issues
• Table1-27
  • Fuel Cell System
• Table1-28
  • Conceptual Operation of a Fuel Cell.
• Table1-29
  • Fuel Cell System Relative Efficiencies
• Table1-30
  • Fuel Cell Reliability Research And Development Issues
• Table1-31
  • AFC Fuel Cell advantages
• Table2-1
  • Worldwide Stationary Fuel Cell Market Growth Drivers
• Table2-2
  • Worldwide Stationary Fuel Cell Market Segments
• Table2-3
  • Fuel cell Technology Positioning
• Figure2-4
  • Worldwide Cogeneration Utility and Campus Stationary Phosphoric Acid Fuel Cells (PAFC), PEM, MFC, and SOFC Shipment Market Forecasts, Dollars, 2006 - 2012
• Table2-5
  • Worldwide Cogeneration Utility and Campus Stationary Phosphoric Acid Fuel Cells (PAFC), PEM, MCFC, and SOFC Shipment Market Forecasts, Dollars, 2006 - 2012
• Figure2-6
  • Worldwide Cogeneration Utility and Campus Stationary Phosphoric Acid Fuel Cells (PAFC) and SOFC Shipment Market Shares, Dollars, 2005
• Table2-7
  • Worldwide Cogeneration Utility and Campus Stationary Phosphoric Acid Fuel Cells (PAFC) and SOFC Shipment Market Shares, Dollars, 2005
• Table2-8
  • United Technologies / UTC Power
• Table2-9
  • United Technologies / UTC Power Experience
• Figure2-10
  • Phosphoric Acid Fuel Cells (PAFC) Utility Market Forecasts . Dollars, 2006 - 2012
• Figure2-11
  • Phosphoric Acid Fuel Cells (PAFC) Utility Market Forecasts . Units, 2006 - 2012
• Table2-12
  • Worldwide PAFC Utility Stationary Fuel Cell Market Forecasts, Units and Dollars, 2006 - 2012
• Table2-13
  • Phosphoric Acid Fuel Cells Long Term Impacts Of Technology As Compelling Market Factors
• Figure2-14
  • SOFC Fuel Cells Utility Market Forecasts . Dollars, 2006 - 2012
• Figure2-15
  • SOFC Fuel Cells Utility Market Forecasts . Units, 2006 - 2012
• Table2-16
  • SOFC Fuel Cells Utility Market Forecasts . Units and Dollars, 2006 - 2012
• Table2-17
  • Siemens-Westinghouse Tubular SOFC Technology The Primary Development Challenges
• Table2-18
  • Planar SOFC Technology Issues
• Table2-19
  • MCFC technology Functions
• Figure2-20
  • Molten Carbonate Fuel Cell (MCFC) Market Forecasts . Dollars, 2006 - 2012
• Figure2-21
  • Molten Carbonate Fuel Cell (MCFC) Market Forecasts . Units, 2006 - 2012
• Table2-22
  • Molten Carbonate Fuel Cell (MCFC) Market Forecasts . Units and Dollars 2006 - 2012
• Figure2-23
  • Proton Exchange Membrane Fuel Cell (PEM) Market Forecasts . Dollars, 2006 - 2012
• Figure2-24
  • Proton Exchange Membrane Fuel Cell (PEM) Market Forecasts . Units, 2006 - 2012
• Table2-25
  • Proton Exchange Membrane Fuel Cell (PEM) Market Forecasts . Units and Dollars, 2006 - 2012
• Figure2-26
  • Proton Exchange Membrane Fuel Cell (PEM) Backup Power Market Forecasts . Dollars, 2006 - 2012
• Figure2-27
  • Proton Exchange Membrane Fuel Cell (PEM) Backup Power Market Forecasts . Units, 2006 - 2012
• Figure2-28
  • Proton Exchange Membrane Fuel Cell (PEM) Backup Power Market Forecasts . Units, 2006 - 2012
• Figure2-29
  • Proton Exchange Membrane Fuel Cell (PEM) Backup Power Market Forecasts . Installed Base Analysis, Percent Penetration, Units and Dollars, 2006 - 2012
• Figure2-30
  • Proton Exchange Membrane Fuel Cell (PEM) Multiple Dwelling Unit Market Forecasts . Dollars, 2006 - 2012
• Figure2-31
  • Proton Exchange Membrane Fuel Cell (PEM) Multiple Dwelling Unit Market Forecasts . Units, 2006 - 2012
• Figure2-32
  • Proton Exchange Membrane Fuel Cell (PEM) Residential Market Forecasts . Dollars, 2006 - 2012
• Figure2-33
  • Proton Exchange Membrane Fuel Cell (PEM) Residential Market Forecasts . Units, 2006 - 2012
• Table2-34
  • Projected Long Term, Uninstalled Costs
• Table2-35
  • Stationary Fuel Cells Strengths and Weaknesses
• Table2-36
  • Cost Comparison of Available Technologies for a 5kW Plant
• Table2-37
  • Stationary Fuel Cell Addressable Market
• Table2-38
  • Japanese Government Schedule for Fuel Cell Introduction
• Table2-39
  • Japanese Sales Prospects
• Figure3-1
  • UTC Power PureCell™ 200 Power Solution
• Figure3-2
  • UTC Power PureCycle. 200
• Table3-3
  • UTC Power Solution Benefits
• Table3-4
  • UTC Power Solution Application Variables
• Table3-5
  • UTC Power Solution Regional Factors
• Table3-6
  • UTC Power On-Site Generation Solution Benefits
• Table3-7
  • UTC PureComfort™ Power Solution Benefits
• Table3-8
  • UTC Power ISO (59 �‹F) Cooling Mode Performance of Trigeneration Systems
• Figure3-9
  • UTC Power PureComfort™ power solution
• Table3-10
  • UTC Power Cooling Mode Performance
• Table3-11
  • United Technologies PureCell™ solution functions
• Table3-12
  • UTC Power Stationary Fuel Cell Units Global Positioning
• Table3-13
  • HydroGen core PAFC Fuel Cell Technology
• Figure3-14
  • HydroGen core PAFC Fuel Cell
• Table3-15
  • Siemens Benefits of Solid Oxide Fuel Cell (SOFC) Technology
• Table3-16
  • Siemens Features of Solid Oxide Fuel Cell (SOFC) Technology
• Table3-17
  • Siemens Comparison of Fuel Cells and Distributed Generation Options
• Figure3-18
  • Siemens SFC-200 building block for systems up to 500 kW
• Figure3-19
  • Siemens SFC-200 Building Block For Systems Up To 500 kW
• Table3-20
  • Siemens Major SOFC System Components
• Table3-21
  • Siemens Major SOFC System Applications
• Figure3-22
  • Siemens Candidate Seal-Less Planar Cell Designs
• Figure3-23
  • Siemens SFC-200
• Figure3-24
  • Siemens SFC-200
• Table3-25
  • Siemens Power Generation Capabilities and characteristics of SOFCs
• Table3-26
  • Direct FuelCell Power Plants Benefits
• Figure3-27
  • Fuel Cell Energy Fuel Cell
• Figure3-28
  • Fuel Cell Energy Fuel Cell
• Figure3- 29
  • Fuel Cell Technologies 5kW SOFCs
• Table3-30
  • TOTO / Fuel Cell Technologies Solid Oxide Fuel Cell Features
• Table3-31
  • Fuel Cell Technology SOFC Positioning
• Table3-32
  • Fuel Cell Technology Stationary Fuel Cell New Opportunities - 50kW
• Figure3-33
  • Delphi Solid Oxide Fuel Cell: Auxiliary Power Unit
• Table3-34
  • Delphi Developmental Fuel-Flexible Solid Oxide Fuel Cell Functions
• Figure3-35
  • Acumentrics Power Systems
• Figure3-36
  • Acumentrics Fuel Cell Systems
• Table3-37
  • CellTech Stationary Fuel Cell Positioning
• Figure3-38
  • Ztek Solid Oxide Fuel Cell Gas Turbine System
• Table3-39
  • ZTEK's Zero-Emission Sol
• Table3-40
  • ZTEK SOFC Advantages
• Table3-41
  • Strengths of the ZTEK Fuel Cell System
• Figure3-42
  • ION America Solid-Oxide Fuel Cell
• Table3-43
  • Rolls Royce Fuel Cells Capabilities
• Table3-44
  • Rolls Royce Solid-Oxide Fuel Cell System Features
• Table3-45
  • Rolls Royce Solid-Oxide Fuel Cell System Functions
• Figure3-46
  • Rolls Royce Fuel Cell Flow
• Figure3-47
  • Ballard Cogeneration Systems
• Table3-48
  • General Hydrogen Fuel Cell HydricityR Pack Functions
• Table3-49
  • General Hydrogen Fuel Cell
• Table3-50
  • ReliOn 1kW PEM Fuel Cell Features:
• Figure3-51
  • ReliOn 1kW PEM Fuel Cell
• Table3-52
  • IdaTech Proton Exchange Membrane (PEM) Fuel Cell Systems
• Figure3-53
  • Protonex Power Platform Product 500 Series
• Table3-54
  • Astris Energi Fuel Cells
• Table3-55
  • Astris Energi Powerstack™MC250
• Table3-56
  • Astris Energi Powerstack™ MC250
• Table3-57
  • Astris LABCell LC200
• Table3-58
  • Astris Energi LabCell LC50
• Table3-59
  • Astris Alkaline Fuel Cell (AFC) Applications
• Table3-60
  • GreenVOLT™ 6 Watt Mini Fuel Cell Features
• Table3-61
  • MTU HotModule® Technology
• Table3-62
  • MTU HotModule® Components
• Figure3-63
  • MTU Fuel Cells Molten Carbonate Fuel Cell (MCFC) HotModule®
• Table3-64
  • MTU HotModule® - Technical Data
• Figure3-65
  • Five Star Technologies Catalysis
• Table3-66
  • Power Air Fuel Cell Positioning
• Table3-67
  • Power Air Fuel Cell Target Markets
• Table3-68
  • Ovonic Fuel Cell Features
• Table3-69
  • Ovonic Fuel Cell Company approach
• Table3-70
  • Ovonic Fuel Cell Applications
• Table4-1
  • Fuel Cell Technologies FTC Residential Applications
• Table4-2
  • Fuel Cell Technologies FTC Application Target Markets
• Table4-3
  • Fuel Cell Technologies FTC Communications Applications
• Table4-4
  • FTC Commercial Applications
• Table4-5
  • FTC Industrial Applications
• Table4-6
  • FTC Military / Security Applications
• Table4-7
  • Waste Heat Recovery Applications
• Figure4-8
  • Fuel Cell
• Figure4-9
  • CellTech Power LTA-SOFC
• Figure4-10
  • CellTech Liquid Anode
• Table4-11
  • UTC Power Ritz-Carlton, San Francisco PureComfort™ 240M Features
• Table5-1
  • ALLPS Fuel Cell System GMBH Positioning
• Figure5-2
  • Angstrom Power Micro-Structured Fuel Cells
• Table5-3
  • Astris Fuel Cells
• Table5-4
  • Astris Fuel Cell Generators
• Table5-5
  • Key features of the Ballard Mark 1030 V3 Fuel Cell
• Table5-6
  • Ballard 2006 Corporate Objectives
• Table5-7
  • FuelCell Energy Multi-Megawatt Opportunities
• Table5-8
  • FuelCell Energy Target Markets
• Table5-9
  • GE Major Energy Research Initiatives
• Table5-10
  • Global's TEGs Target Markets
• Table5-11
  • HydroGen principal goals of development
• Table5-12
  • Fuel Cell Reforming 500 kWe Proton Exchange Membrane fuel
• Table5-13
  • Protonex 150 Series Portable Power System Functions
• Table5-14
  • Proton Energy Systems
• Table5-15
  • ReliOn Investors