World Energy - Market Shifts, Forecasts, and Strategies, 2007 to 2013

Table of Contents

WORLD ENERGY MARKET SHIFTS EXECUTIVE SUMMARY

• Demand For Electricity
  • Total Energy Usage Market Forecasts
• Industrialization Requires Sustainable, Highly Efficient Energy

1. WORLD ENERGY MARKET SHIFTS: - MARKET DYNAMICS AND MARKET DESCRIPTION

• 1.1 Cost-Effective And Efficient Generation Of Electricity, Heat, And Air Conditioning
• 1.2 Grid Energy
  • 1.2.1 Grid Power Lines Threaten Natural Preservation Areas
• 1.3 Micro Generation Of Energy For Residential Markets
• 1.4 Stationary Fuel Cells on Campus
• 1.5 Transportation
  • 1.5.1 Fundamental Shift In Transportation Technology
  • 1.5.2 Conventional Transportation Energy Devices
  • 1.5.3 Rechargeable Batteries
  • 1.5.4 Fuel Environmental Issues
  • 1.5.5 Greenhouse Gas Emissions
• 1.6 Battery Description
  • 1.6.1 Thin Film Solid-State Battery Construction

2. WORLD ENERGY MARKET SHIFTS, SHARES, AND FORECASTS

• 2.1 Industrialization Requires Sustainable, Highly Efficient Energy
• 2.2 World Energy Segments and Forecasts
  • 2.2.1 Worldwide Grid Electricity Supplemented by Off Grid Micro Generation of Power Stored in Thin Film Batteries
  • 2.2.2 U.S. Grid Electricity Supplemented by Off Grid Micro Generation of Power Stored in Thin Film Batteries 2-11
• 2.3 Residential Use of Thin Film Batteries To Store Wind and Solar Energy
  • 2.3.1 Residential Energy Sector In Developed Countries
  • 2.3.2 Residential Energy Sector In Underdeveloped Countries
  • 2.3.3 Energy Consumption by End-Use Sector
• 2.4 Commercial Energy Sector
  • 2.4.1 Commercial Energy Sector In Developed Countries
  • 2.4.2 Commercial Energy Sector In Underdeveloped Countries
• 2.5 Developed Economy Industrial Sector
• 2.6 Developed Economy Transportation Sector
  • 2.6.1 Europe Energy Transport Sector
  • 2.6.2 Japanese and Asia Developed Country Energy Transport Sector
  • 2.6.3 Underdeveloped Country Energy Transport Sector
• 2.7 Worldwide Grid Electricity Shift To Residential Thin Film Batteries Market Forecasts

3. WORLD ENERGY MARKET SHIFTS: WIND AND SOLAR MICRO GENERATION OF ENERGY STORED IN THIN FILM BATTERIES PRODUCT DESCRIPTION

• 3.1 Thin Film Batteries
• 3.2 Front Edge Technology (FET)
  • 3.2.1 Front Edge Technology (FET) NanoEnergyTM Ultra-Thin Rechargeable Battery Technical Information
  • 3.2.2 Front Edge Technology (FET) NanoEnergyTM High Temperature Performance
  • 3.2.3 Front Edge Technology (FET) NanoEnergyTM Low Temperature Performance
  • 3.2.4 Front Edge Technology (FET) NanoEnergyTM Safety and toxicity
• 3.3 Excellatron High Rate Deposition Process (Plasma Enhanced Chemical Vapor Deposition)
  • 3.3.1 Excellatron Process To Produce Thin Film Batteries
  • 3.3.2 Excellatron Thin Film Battery Applications
• 3.4 Eveready
• 3.5 ORNL Thin-Film Lithium Battery
  • 3.5.1 ORNL Battery On A Chip
  • 3.5.2 ORNL Thin-Film Lithium Cells
  • 3.5.3 ORNL Thin-Film Lithium Cell Film Deposition
  • 3.5.4 Eveready
• 3.6 Solar Power
  • 3.6.1 MEMS Research Laboratories
• 3.7 Teledyne
  • 3.7.1 Teledyne Thin Film Battery Cycle life
• 3.8 Residential Wind Systems
• 3.9 Bergey Windpower
  • 3.9.1 Bergey XL.1 Specifications
  • 3.9.2 Vestas Wind Systems
  • 3.9.3 Ampair
  • 3.9.4 Wind & Water Generators Pacific 100 Wind Generator
  • 3.9.5 Ampair Pacific 100 Wind Generator Product Features
• 3.10 Shell Solar Panels
• 3.11 BP Solar 380J 80W Solar Panel
• 3.12 GE Solar
• 3.13 Global Solar Sunlinq 6.5Watt 12V Portable Power Pack
• 3.14 Evergreen Solar
• 3.14.1 Evergreen Solar
• 3.14.2 Evergreen Solar Spruce Series 18V Photovoltaic Modules
• 3.14.3 Evergreen Solar String Ribbon Technology
• 3.14.4 Evergreen Solar Panels
• 3.15 Isofotón
• 3.16 Matrix Solar
• 3.17 Sanyo Solar
  • 3.17.1 Sanyo' s HIP-G751B 167W Solar Panel
• 3.18 Sharp
  • 3.18.1 Sharp Solar 165 Watt Module
• 3.19 SolarWorld 24V Solar Panel
  • 3.19.1 SolarWorld Models SW165 & SW175 Mono-crystalline PV Modules
• 3.20 Sun Tech Solar Panel

4. WORLD ENERGY MARKET SHIFTS: MICRO GENERATION OF ENERGY STORED IN THIN FILM BATTERIES TECHNOLOGY

• 4.1 Battery Cell Construction
  • 4.1.1 Thin Film Solid State Battery Construction
  • 4.1.2 Impact of Nanotechnology
  • 4.1.3 Lithium Ion Cells Optimized For Capacity
  • 4.1.4 Flat Plate Electrodes
  • 4.1.5 Spiral Wound Electrodes
  • 4.1.6 Multiple Electrode Cells
  • 4.1.7 Fuel Cell Bipolar Configuration
  • 4.1.8 Electrode Interconnections
  • 4.1.9 Sealed Cells and Recombinant Cells
  • 4.1.10 Battery Cell Casing
  • 4.1.11 Button Cells and Coin Cells
  • 4.1.12 Pouch Cells
  • 4.1.13 Prismatic Cells
• 4.2 Thin Film Batteries
  • 4.2.1 Thin Film Battery Timescales and Costs
• 4.3 Naming Standards for Cell Identification
  • 4.3.1 High Power And Energy Density
  • 4.3.2 High Rate Capability
• 4.4 Comparison Of Rechargeable Battery Performance
• 4.5 Thin-Film Rechargeable Lithium Batteries UT/Battelle Oak Ridge National Laboratory
  • 4.5.1 Oak Ridge Micro-Energy
• 4.6 Polymer Film Substrate
• 4.7 Micro Battery Solid Electrolyte
• 4.8 Alternative Power for Autonomous MEMs
• 4.9 Lithium Technology
• 4.10 Sony Lithium-Ion Cells
• 4.11 Sanyo Electric Co.
  • 4.11.1 BYD
• 4.12 Lithium-Ion/Polymer Cell Shipment Market Shares
• 4.13 Ultralife Batteries
  • 4.13.1 Lithium Technology Corporation Technology Overview
• 4.14 Lithium Technology Corporation (LTC)
• 4.15 BYD
• 4.16 Industries International Incorporated (INDI),
• 4.17 Cymbet™ Corporation
  • 4.17.1 Cymbet Application Specific Solid Energy Technology
  • 4.17.2 Cymbet Cells Packaging
  • 4.17.3 Cymbet Consumer Electronics
  • 4.17.4 Cymbet Medical Electronic Thin-Film Battery System
  • 4.17.5 Cymbet Military Electronic Thin-Film Battery System Military Device Systems
  • 4.17.6 Cymbet Military Electronic Thin-Film Battery System MEMs And Nanotechnology Device Systems
  • 4.17.7 Cymbet™:
  • 4.17.8 Cymbet™ Combines The High Energy Density Of A Lithium Cobalt Oxide
  • 4.17.9 Cymbet Thin Film Lithium Ion Cells
  • 4.17.10 Cymbet Thin Film Battery System Advanced Features
  • 4.17.11 Thin-Film Battery Rechargeable Solution
  • 4.17.12 Thin-Film Battery Deposition Process
• 4.18 Power Paper Battery-Assisted UHF RFID Chips
• 4.19 Power Paper Thin and Flexible Energy Cells
• 4.20 Fuel Cell Operation
  • 4.20.1 Fuel Cells Generate Electrical Power As Backup Technologies
  • 4.20.2 Conventional Solid Oxide Fuel Cells
  • 4.20.3 How-SOFC Works
• 4.21 Fuel Cell Operation
  • 4.21.1 Fuel Cells Definition
• 4.22 Fuel Cell Issues
  • 4.22.1 Solid Oxide Fuel Cells
  • 4.22.2 Fuel Cell Workings
  • 4.22.3 Environmental Benefits Of Fuel Cells
  • 4.22.4 Fuel-To-Electricity Efficiency
• 4.23 Battery Function
  • 4.23.1 Ballard Secures Us$40 Million Carbon Fiber Materials Contract Extension With Major Automakers
• 4.24 Roadmap on Manufacturing R&D For The Hydrogen Economy
• 4.25 California Stationary Fuel Cell Collaborative
  • 4.25.1 California Stationary Fuel Cell Collaborative Benchmarking Focus
• 4.26 Solid State Energy Conversion Alliance (SECA)
  • 4.26.1 U.S. Department of Energy' s Solid State Energy Conversation Alliance (SECA)
• 4.27 SECA Program at the National Technical Energy Laboratory
  • 4.27.1 Altergy Systems
  • 4.27.2 FuelCell Energy (FCE)
• 4.28 Energy Conversion Factors

5. WORLD ENERGY COMPANY PROFILES

• 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 Advent International / RWE Energy
• 5.6 Agni
• 5.7 Alca Torda Applications
• 5.8 ALLPS Fuel Cell System GMBH
• 5.8.1 System engineering
• 5.9 Anglo Platinum / Johnson Matthey Leading Researcher In Platinum Market
  • 5.9.1 Anglo Platinum / Johnson Matthey Fuel Cells
• 5.10 Angstrom Power
• 5.11 Ansaldo Fuel Cells SpA-AFC
• 5.12 Apollo Energy Systems-
  • 5.12.1 Apollo Energy Systems Stationary Applications
• 5.13 Aperion Energy Systems
  • 5.13.1 Areva Ramping Up Investments For The Restart Of Nuclear Programs
  • 5.13.2 AREVA Development Is Built On A Sound Financial Position
  • 5.13.3 AREVA Has Development Is Built On A Sound Financial Position Objectives
  • 5.13.4 Areva Plant Construction In Siberia
  • 5.13.5 Areva Won Two Contracts In Tunisia
  • 5.13.6 Areva Invests in Wind Power
  • 5.13.7 Areva Won Two Contracts In The Middle East
  • 5.13.8 Areva Contracts And Agreements In China
  • 5.13.9 Areva Strengthens Presence In Brazil
  • 5.13.10 Areva Proposes The Epr In China
  • 5.13.11 In Brazil, Areva Builds Two Biomass Power Plants
  • 5.13.12 Areva Workforce By Region
  • 5.13.13 Areva Revenue
  • 5.13.14 Areva Consulting and Information Systems.
  • 5.13.15 Areva Uranium Mining
  • 5.13.16 AREVA NC Pierrelatte
  • 5.13.17 COGEMA Pierrelatte wins ISO 14001 certification
  • 5.13.18 AREVA Environmental Protection
  • 5.13.19 COMURHEX Malvési
  • 5.13.20 As of March 1st; 2006, COGEMA becomes AREVA NC
  • 5.13.21 COMURHEX Pierrelatte
  • 5.13.22 AREVA and URENCO Joint Venture ETC (Enrichment Technology Company)
  • 5.13.23 Cameco Construction on the Cigar Lake Mine
  • 5.13.24 AREVA / TENEX Technology Sales Agreement
  • 5.13.25 COGEMA Begins Work On Treating Australian Used Fuel
• 5.14 Astris Energi
  • 5.14.1 Astris Alkaline Fuel Cell Electric Generators
• 5.15 Air Liquide / Axane Fuel Cell Systems
• 5.16 Finmeccanica Group / Ansaldo Fuel Cells
  • 5.16.1 Ansaldo Fuel Cells Series 2TW
• 5.17 Ball Aerospace & Technologies
• 5.18 Ballard
  • 5.18.1 Ballard Total Revenues
  • 5.18.2 Ebara
  • 5.18.3 Ebara Ballard
  • 5.18.4 Ebara Local Assembly
  • 5.18.5 Japanese Government Subsidies in 2006
  • 5.18.6 Ballard Reports Improves Sales in Power Generation Markets
  • 5.18.7 Ballard 2006 Corporate Objectives
  • 5.18.8 Ballard Power Systems
  • 5.18.9 Ebara Ballard
  • 5.18.10 Ballard Power Systems / Ebara Next Generation Of Cogeneration Fuel Cell Stack
  • 5.18.11 Ebara Ballard
  • 5.18.12 Ebara Ballard Precision Machinery
  • 5.18.13 Plug Power and Ballard Power Systems Collaboration
  • 5.18.14 Ebara Corporation
• 5.19 Baxi Group-
• 5.20 BCS Technology
• 5.21 BHP Billiton Olympic Dam Uranium Mine
• 5.22 British Nuclear Group (BNG)
• 5.23 Cameco
  • 5.23.1 Cameco Uranium Price Sensitivity 2006
  • 5.23.2 Cameco Uranium Price Sensitivity (2006 to 2008)
  • 5.23.3 Cameco Uranium Spot Market Perspective
  • 5.23.4 Cameco Uranium Long-Term Market
  • 5.23.5 Cameco Uranium Operations
  • 5.23.6 Cameco McArthur River/Key Lake
  • 5.23.7 Cameco Rabbit Lake
  • 5.23.8 Cameco Smith Ranch-Highland and Crow Butte
  • 5.23.9 Cameco Cigar Lake
  • 5.23.10 Cameco Inkai
  • 5.23.11 Cameco Uranium Production Outlook
  • 5.23.12 Cameco Uranium Exploration Update1
  • 5.23.13 Cameco Millennium
  • 5.23.14 Cameco Regional Exploration
  • 5.23.15 Cameco Completed Acquisition Of UNOR
• 5.24 Ceramic Fuel Cells Limited (CFCL)
• 5.25 Celex Power
• 5.26 CellTech Power LLC
• 5.27 Cellennium
• 5.28 Cenergie Corporation
• 5.29 Ceramatec
• 5.30 Ceres Power
• 5.31 Clean Fuel Generation-
• 5.32 CMR Fuel Cells
• 5.33 Connecticut Clean Energy Fund
• 5.34 CCEF' s funding comes from a surcharge on electric ratepayers' utility bills. Constellation Energy and Electricite de France (EdF)
• 5.35 Coval H2
• 5.36 CTP Hydrogen
• 5.37 Daimler Chrysler / MTU / CFC-MTU Solutions (German)
  • 5.37.1 MTU CFC Solutions GmbH Joint Venture
  • 5.37.2 CFC-MTU Solutions (German Part Of Daimler Chrysler / MTU)
• 5.38 Delphi
  • 5.38.1 Delphi Reports Fourth Quarter and Calendar Year 2005 Financial Revenue
  • 5.38.2 Delphi Technical Expertise
  • 5.38.3 Delphi Chapter 11 Cases
  • 5.38.4 Delphi and Partner Battelle Pacific Northwest Division / SECA Program
  • 5.38.5 Delphi Developmental Fuel-Flexible Solid Oxide Fuel Cell Functions
• 5.39 DE NORA s.p.a
• 5.40 Dias Analytic
  • 5.40.1 Dais
• 5.41 Donaldson Company
• 5.42 DTI Energy
• 5.43 Dupont
• 5.44 EBZ Entwicklungs-und Vertriebsgesellschaft Brennstoffzelle mbH
• 5.45 ESL Electric Auto Science
• 5.46 Electrotec
• 5.47 ElectroChem
• 5.48 Element 1 Power Systems
• 5.49 Electric Power Research Institute
• 5.50 Electronic Machining s.r.l.
• 5.51 Emprise -
• 5.52 Entegris-
• 5.53 Eneco
• 5.54 ENrG
• 5.55 EnergySolutions
• 5.56 Energy Resources of Australia Ltd. ERA
• 5.57 Engelhard
• 5.58 Esoro
• 5.59 Evonyx-eVionyx
• 5.60 Exelon Generation Company LLC
• 5.61 Five Star Technologies
• 5.62 Fuel Cell Components and Integrators
• 5.63 Fuel Cell Control
  • 5.63.1 Fuel Maker
• 5.64 FuelCell Energy
• 5.65 Fuel Cells Ltd
• 5.66 Fuel Cells Canada
  • 5.66.1 Industry Canada (IC)
• 5.67 FuelCell Energy
  • 5.67.1 Direct FuelCell, DFC and DFC/Turbine Registered Trademarks
  • 5.67.2 FuelCell Energy U.S. Government Camp Pendleton 250 Kilowatts of Power
  • 5.67.3 FuelCell Energy Revenue
  • 5.67.4 FuelCell Energy Revenue Second Quarter 2006
  • 5.67.5 FuelCell Energy Corporate Developments
  • 5.67.6 FuelCell Energy Revenue
  • 5.67.7 FuelCell Energy Target Markets
  • 5.67.8 FuelCell Energy Financial Highlights
  • 5.67.9 FuelCell Energy FY 2005 Highlights
  • 5.67.10 FuelCell Energy Geographic Markets
  • 5.67.11 FuelCell Energy Pursuing Market Opportunities
  • 5.67.12 FuelCell Energy' s Focus for 2006
  • 5.67.13 FuelCell Energy / NTT High Efficiency Power Plant
  • 5.67.14 FuelCell Energy / Marubeni
  • 5.67.15 FuelCell Energy Power Plant Sites Around The Globe
  • 5.67.16 FuelCell Energy Development Partner, Bridgeport Fuel Cell Park, LLC Wins Pre-Development Financing for 10-Megawatt Fuel Cell Power Plant
• 5.68 Fuel Cell Technologies Ltd.
  • 5.68.1 Fuel Cell Technologies
  • 5.68.2 FCT
  • 5.68.3 Fuel Cell Technologies Customers
  • 5.68.4 Fuel Cell Technologies Partners
  • 5.68.5 Fuel Cell Technologies Revenue
• 5.69 Fuel Cell Technologies
• 5.70 Fuji
  • 5.70.1 Fuji Electric Group
• 5.71 Franklin Fuel Cells
• 5.72 GE
  • 5.72.1 GE Solid Oxide Fuel Cell Program
  • 5.72.2 GE Major Energy Research Initiatives:
  • 5.72.3 GE Energy
• 5.73 GenCell
• 5.74 General Hydrogen
  • 5.74.1 General Hydrogen
  • 5.74.2 Ballard / General Hydrogen / Bridgestone In The US
  • 5.74.3 General Hydrogen Hydrogen-Powered Hydricity® Pack ROI
  • 5.74.4 General Hydrogen
  • 5.74.5 General Hydrogen ROI
  • 5.74.6 General Hydrogen Backed By General Motors and Air Products
• 5.75 Gesellschaft für Angewandte Technik mbH Greifswald (GAT)-
• 5.76 Global Thermoelectric!
• 5.77 GreenVOLT™
• 5.78 GreenVOLT™ Mini Fuel Cell
• 5.79 GTI -Gas Technology Institute
• 5.80 Hoku / Sanyo
• 5.81 Honda:
  • 5.81.1 Honda / Plug Power
• 5.82 HydroGen
  • 5.82.1 HydroGen Development Activities
  • 5.82.2 HydroGen Corporation and HydroGen, LLC
• 5.83 Idaho National Laboratory
• 5.84 IDACORP / IdaTech
  • 5.84.1 IdaTech ElectraGen(TM)3 Critical Backup Power Fuel Cell System
  • 5.84.2 IdaTech Positioning
  • 5.84.3 IdaTech Europe
  • 5.84.4 IdaTech CE Certification
  • 5.84.5 IdaTech Research And Development
• 5.85 Impala Platinum
• 5.86 Ion America
  • 5.86.1 Ion America Fuel Cell Company
  • 5.86.2 Ion America R&D unit in Chennai, India
  • 5.86.3 Ion America Chattanooga Enterprise Center
• 5.87 LOGANEnergy
• 5.88 McDermott International / SOFCo-EFS
• 5.89 Matsushita Electric Industrial Co. Ltd.
• 5.90 Mesoscopic Devices / MesoGen
• 5.91 Millennium Cell
• 5.92 Mitsubishi
• 5.93 NanoDynamics
• 5.94 Navoi Mining and Metallurgical Combine (Navoi MMC) Navoi, Uzbekistan
• 5.95 Nuclear Construction Contractors
• 5.96 Nu Element
• 5.97 Nuvera Fuel Cells
  • 5.97.1 Nuvera Fuel Cells / Rivoira / SIAD Group To Expand Laboratory Plant In Italy For Testing Hydrogen-Based Fuel Cell Systems
  • 5.97.2 Nuvera
  • 5.97.3 Nuvera Fuel Cells
  • 5.97.4 Nuvera
  • 5.97.5 Nuvera Fuel Cells 5 kW PowerFlow™ Fuel Cell Power Module
  • 5.97.6 Nuvera Shareholders
• 5.98 Palcan
• 5.99 Pinnacle / Arizona Public Service Co (APS)
• 5.100 Plug Power
  • 5.100.1 Plug Power Product Development and Commercialization
  • 5.100.2 Plug Power Distribution, Marketing and Strategic Relationships
  • 5.100.3 Plug Power Gone Away From Residential Fuel Cells to Back-Up Power Generation
  • 5.100.4 Plug Power / Tyco
  • 5.100.5 Plug Power / Honda
  • 5.100.6 Plug Power / Pemeas
  • 5.100.7 Plug Power / Engelhard
  • 5.100.8 Plug Power / DTE Energy
  • 5.100.9 Plug Power Revenue
  • 5.100.10 Plug Power Revenue
  • 5.100.11 Plug Power To Receive $217 Million Cash Investment From Interros And Norilsk Nickel
  • 5.100.12 Plug Power Distribution Partners To Access Targeted Markets In U.S. And South Korea
• 5.101 Pacific Telepoint
• 5.102 Parker Hannifin
• 5.103 PEMEAS Polymer Electrolyte Membrane (PEM)
• 5.104 Power Air Corporation
• 5.105 Praxair / Rivoira
  • 5.105.1 Praxair / SIAD
• 5.106 Priargunsky
  • 5.106.1 CJSC Dalur Kurgan Region, Uksyanskoye
• 5.107 Prometheus Resources Guyana / U3O8 Corp of Canada Subsidiary
• 5.108 Protonetics
• 5.109 Protonex Technology Corporation
  • 5.109.1 Protonex Military Development Contract From Army Research Office
  • 5.109.2 Protonex to Advanced Soldier Power System Development
  • 5.109.3 Protonex Partnership With Millennium Cell
  • 5.109.4 Protonex Raises Second Round Financing - Portable Fuel Cell Global Design/Manufacturing Partner Parker Hannifin
  • 5.109.5 Parker Hannifin Investment In Protonex
  • 5.109.6 Protonex OEM Customers
  • 5.109.7 Protonex Portable Soldier Power
  • 5.109.8 Protonex Portable Battery Charger
  • 5.109.9 Protonex From Military Development to Commercial
  • 5.109.10 Protonex 150 Series Portable Power System
• 5.110 Proton Energy Systems
• 5.111 ReliOn
  • 5.111.1 ReliOn Investors:
  • 5.111.2 ReliOn / CEA Telecom Fuel Cells
  • 5.111.3 ReliOn / CEA Telecom
• 5.112 Rolls Royce Group
  • 5.112.1 Rolls Royce Fuel Cell Systems Group
• 5.113 Rössing
  • 5.113.1 Rio Tinto Group / Rössing
  • 5.113.2 Rössing Mine 800 Employees
  • 5.113.3 Rössing Mine Operating Life
  • 5.113.4 Rössing Mine Production
• 5.114 RWE Nukem
• 5.115 RWE AG, Essen / RWE Fuel Cells
• 5.116 Solid State Energy Conversion Alliance (SECA)
• 5.117 Siemens
  • 5.117.1 Siemens Westinghouse / Fuel Cell Technologies Strategic Partnership
  • 5.117.2 Siemens SOFC Power Generation System In The 5-10 Kw Range
  • 5.117.3 Siemens Power Generation Partners
  • 5.117.4 Siemens Networks
  • 5.117.5 Siemens Business Services
  • 5.117.6 Siemens Research and Development
  • 5.117.7 Siemens Information and Communication Networks
  • 5.117.8 Siemens Information and Communication Mobile Group
  • 5.117.9 Siemens Tubular Solid Oxide Fuel Cell Technology
• 5.118 Sulzer Group / Sulzer Hexis
• 5.119 SXR Uranium One
• 5.120 Takagi Industrial Co., Ltd.
• 5.121 Toshiba-Polymer Electrolyte Fuel Cells (PEFC)
• 5.122 TOTO
• 5.123 Ultracell
• 5.124 Umicore
  • 5.124.1 Umicore pMembrain(tm) Membrane Electrode Assemblies
• 5.125 Unitec Ceramics
• 5.126 Uranium Information Centre Ltd
• 5.127 United States Enrichment Corporation (USEC) Inc
• 5.128 United Technologies
  • 5.128.1 United Technologies / UTC Power / UTC Fuel Cells
  • 5.128.2 Memorandum Of Understanding Signed Among Toshiba, IFC, and UTC
  • 5.128.3 UTC Fuel Cells (UTCFC), Formerly International Fuel Cells
  • 5.128.4 UTC Fourth Quarter Revenue
  • 5.128.5 UTC Fuel Cells
• 5.129 Viaspace / Direct Methanol Fuel Cell
• 5.130 WMC
  • 5.130.1 WMC Is Spending $50 Million Studying Expansion Plans For Olympic Dam
• 5.131 ZAO Independent Power Technologies
• 5.132 ZTEK
  • 5.132.1 Ztek Corporation to Collaborate with U.S. Department of Navy On Hydrogen Fueling Station
  • 5.132.2 ZTEK Corporation

List of Tables and Figures

WORLD ENERGY MARKET SHIFTS EXECUTIVE SUMMARY

• Table ES-1 Worldwide Energy Market Shifts
• Table ES-2 Basic Technologies for Clean, Renewable Energy
• Table ES-3 Market Driving Forces for Energy Shifts: Micro Generation Of Energy Stored in Thin Film Batteries, Nuclear and Stationary Fuel Cells
• Table ES-4 Market Driving Forces for Energy Shifts

WORLD ENERGY MARKET SHIFTS: MARKET DYNAMICS AND MARKET DESCRIPTION

• Table 1-1 Worldwide Energy sectors
• Table 1-2 Stationary Fuel Cell Market Participants That Deliver Energy In A Campus Environment
• Table 1-3 Environmental Concerns Relating To Energy
• Table 1-4 Low-carbon production systems
• Figure 1-5 Typical Structure Of A Thin Film Solid State Battery
• Table 1-6 Comparison Of Battery Performances
• Table 1-7 Thin Films For Advanced Batteries

WORLD ENERGY MARKET SHIFTS, SHARES, AND FORECASTS

• Table 2-1 Market Driving Forces for Energy Shifts: Micro Generation Of Energy Stored in Thin Film Batteries, Nuclear and Stationary Fuel Cells
• Table 2-2 Market Driving Forces for Energy Shifts
• Figure 2-3 Worldwide Electricity Generation Power Source Market Segments, 2006
• Figure 2-4 Worldwide Grid and Off Grid Electricity Generation Power Source Market Segments, 2013
• Figure 2-5 Worldwide Grid And Off Grid Electricity Generation Power Source Market Segments, 2018
• Figure 2-6 Worldwide Electricity Generation Power Source Market Segments, 2006, 2013, and 2018
• Figure 2-7 U.S. Electricity Generation Power Source Market Segments, 2006
• Figure 2-8 U.S. Electricity Generation Power Source Market Segments, 2013
• Figure 2-9 U.S. Electricity Generation Power Source Market Segments, In Billions of Kilowatt Hours 2006 and 2013
• Table 2-10 Basic Technologies for Clean, Renewable Energy
• Figure 2-11 US Residential Shift To Solar, Wind, Thin Film Battery, Fuel Cells - BTU' s
• Figure 2-12 US Residential Shift To Solar, Wind, Thin Film Battery, Fuel Cells - Percentages
• Figure 2-13 US Residential Energy Shifts
• Figure 2-14 Worldwide Residential Energy Shifts
• Figure 2-15 Rest of World Residential Shift To Solar, Wind, Thin Film Battery, Fuel Cells - BTU' s
• Figure 2-16 Rest of World Residential Shift To Solar, Wind, Thin Film Battery, Fuel Cells - Percentages
• Figure 2-17 Worldwide Residential Shift To Solar, Wind, Thin Film Battery, Fuel Cells - BTU' s
• Figure 2-18 Worldwide Residential Shift To Solar, Wind, Thin Film Battery, Fuel Cells - Percentages
• Figure 2-19 Worldwide Commercial Shift To Solar, Wind, Thin Film Battery, Fuel Cells - BTU' s
• Figure 2-20 Worldwide Commercial Shift To Solar, Wind, Thin Film Battery, Fuel Cells - Percentages
• Table 2-21 Worldwide Commercial Shift To Campus Fuel Cells Market Forecasts
• Table 2-22 Worldwide Industrial Shift To Campus Fuel Cells Market Forecasts
• Table 2-23 U.S. and Rest of World Transportation Shift To Personal Vehicle Thin Film Batteries and Fleet Vehicle Fuel Cells Market Forecasts
• Table 2-24 Worldwide Transportation Shift To Personal Vehicle Thin Film Batteries and Fleet Vehicle Fuel Cells Market Forecasts
• Table 2-25 U.S. Grid Electricity Shift To Residential Thin Film Batteries and Campus and Grid Stationary Fuel Cells Market Forecasts
• Table 2-26 Rest of World Grid Electricity Shift To Residential Thin Film Batteries and Campus and Utility Stationary Fuel Cells Market Forecasts
• Table 2-27 Worldwide Grid Electricity Shift To Residential Thin Film Batteries and Campus and Utility Stationary Fuel Cells Market Forecasts

WORLD ENERGY MARKET SHIFTS: WIND AND SOLAR MICRO GENERATION OF ENERGY STORED IN THIN FILM BATTERIES PRODUCT DESCRIPTION

• Table 3-1 Front Edge Technology (FET) NanoEnergyTM Ultra-Thin Rechargeable Battery Key Features
• Table 3-2 Front Edge Technology (FET) NanoEnergyTM Ultra-Thin Rechargeable Battery Technical Information
• Table 3-3 Excellatron Deposition Of Solid State Electrolyte By The PECVD Process
• Table 3-4 ORNL Solid-State Thin-Film Batteries Offer Advantages
• Table 3-5 Major Challenges To ORNL For The Development Of The Lithium Cells
• Figure 3-6 Teledyne NanoEnergyTM Powering A Blue LED
• Table 3-7 Teledyne Typical Charging Curve Of A 0.9 mAh Battery
• Figure 3-8 Teledyne NanoEnergyTM Discharge Rates And Discharge Characteristics
• Figure 3-9 Teledyne Thin Film Battery Capacity and Charging rate Cycles
• Figure 3-10 Bergey Wind XL.1
• Table 3-11 Bergey XL.1 Specifications
• Table 3-12 Bergey XL.1Tilt Up Tower Kits Available
• Figure 3-13 Ampair Pacific 100 Wind Generator Systems
• Figure 3-14 Pacific 100 Stern Mount Systems
• Table 3-15 Ampair Pacific 100 Wind GeneProduct Features
• Table 3-16 Ampair Pacific 100 Wind Generator Installation
• Figure 3-17 Pacific 300 Generates 360Ah Of Power A Day
• Figure 3-18 General Electric Solar Panel
• Table 3-19 General Electric Solar Panel Features
• Table 3-20 General Electric Solar Panel Benefits
• Table 3-21 GE Solar Panel Typical Performance Characteristics
• Figure 3-22 Evergreen Solar Panel
• Figure 3-23 Evergreen Solar String Ribbon Technology
• Figure 3-24 Evergreen Solar
• Figure 3-25 Evergreen Solar Panel Mounting
• Table 3-26 Matrix Solar Panel
• Table 3-27 Matrix Solar Special Features and End Uses:
• Table 3-28 Sanyo' s HIP-G751B 167W Solar Panel Features:
• Figure 3-29 Sanyo' s HIP-G751B 167W Solar Panel
• Table 3-30 Sharp Solar 165 Watt Module Features
• Table 3-31 Sharp Solar Cell Ratings
• Table 3-32 SolarWorld Mono-crystalline PV Modules Benefits
• Table 3-33 Sun Tech Solar Panel Performance
• Table 3-34 Sun Tech Solar Panel Features

WORLD ENERGY MARKET SHIFTS: MICRO GENERATION OF ENERGY STORED IN THIN FILM BATTERIES TECHNOLOGY

• Table 4-1 Thin Film Solid State Battery Construction
• Table 4-2 Thin Film Lithium Battery Construction
• Table 4-3 Thin Film Solid State battery Safety Security Protections
• Table 4-4 Common Household-Battery Sizes, Shape, and Dimensions
• Table 4-5 Thin Film Battery Unique Properties
• Table 4-6 Comparison of battery performances
• Table 4-7 Comparison Of Battery Performances
• Table 4-8 Thin Films For Advanced Batteries
• Table 4-9 Thin Film Batteries Technology
• Table 4-10 Thin Film Battery / Lithium Air Batteries Applications
• Figure 4-11 Polymer Film Substrate Thin Flexible battery Profiles
• Figure 4-12 Design Alternatives of Thin Film Rechargable Batteries
• Table 4-13 Advantages Of Using Alternative Energy Power Systems To Supply Micro Power To MEMs
• Table 4-14 Selected Lithium Technology Corporation Customers
• Table 4-15 Cymbet™ Thin-Film Battery System Key Features
• Table 4-16 Cymbet™ Thin-Film Battery System Smart Card Applications
• Table 4-17 Cymbet Application Specific Solid Energy Technology
• Table 4-18 Cymbet Application Specific Solid Energy Technology Recharge Characteristics
• Table 4-19 Cymbet Surface mountable battery Packaging Key features
• Table 4-20 Cymbet Consumer Electronics Lightweight Energy Source Key Features
• Table 4-21 Cymbet Medical Electronic Thin-Film Battery System Key Features
• Table 4-22 Cymbet Medical Electronic Thin-Film Battery System Medical Device Industry Target Markets
• Table 4-23 Cymbet Military Electronic Thin-Film Battery System Military Device Systems Key Features
• Table 4-24 Cymbet Thin Film Battery System Advanced Features
• Table 4-25 Cymbet Thin Film Battery System Applications
• Figure 4-26 Fuel Cell
• Figure 4-27 CellTech Power LTA-SOFC
• Table 4-28 Fuel Cell Operation
• Table 4-29 Fuel Cell Characteristics
• Table 4-30 Fuel Cell Description
• Table 4-31 Fuel Cell Issues
• Table 4-32 Fuel Cell System
• Table 4-33 Conceptual Operation of a Fuel Cell.
• Table 4-34 Fuel Cell System Relative Efficiencies
• Figure 4-35 CellTech Liquid Anode
• Table 4-36 Energy Conversion Factors

WORLD ENERGY COMPANY PROFILES

• Table 5-1 ALLPS Fuel Cell System GMBH Positioning
• Figure 5-2 Angstrom Power Micro-Structured Fuel Cells
• Table 5-3 AREVA Energy Business Positioning
• Figure 5-4 Areva Sales by Region
• Figure 5-5 Areva Nuclear Reactor and Services Sales
• Table 5-6 Astris Fuel Cells
• Table 5-7 Astris Fuel Cell Generators
• Table 5-8 Key Features Of The Ballard Mark 1030 V3 Fuel Cell
• Table 5-9 Ballard 2006 Corporate Objectives
• Table 5-10 Cameco Construction Of The Cigar Lake Mine Project Aspects:
• Table 5-11 Cameco' s Share of Production (millions pounds U3O8)
• Table 5-12 Cameco Forecast Production Key Assumptions
• Table 5-13 FuelCell Energy Multi-Megawatt Opportunities
• Table 5-14 FuelCell Energy Target Markets
• Table 5-15 Fuel Cell Technologies Installations 2003-2004
• Table 5-16 GE Major Energy Research Initiatives
• Table 5-17 Global' s TEGs Target Markets
• Table 5-18 HydroGen principal goals of development
• Table 5-19 Fuel Cell Reforming 500 kWe Proton Exchange Membrane fuel
• Figure 5-20 CJSC Dalur carries out uranium mining
• Table 5-21 Protonex 150 Series Portable Power System Functions
• Table 5-22 Proton Energy Systems
• Table 5-23 ReliOn Investors
• Table 5-24 Rössing Mine Production Performance Data Table
• Table 5-25 Uranium Information Centre Principal Aims