Renewable Energy for Military Applications

Increased access to clean and reliable energy has become a leading priority for the U.S. Department of Defense (DOD) and the military arena in general, both as a means of reducing dependence on foreign oil as well as for purposes of increasing the efficiency and performance of all aspects of operations across multiple domains including base and facility operations, transport, and portable soldier power. The various composite branches of the DOD, as an organization, combine to form the single largest consumer of energy in the world – more than any other public or private entity and greater than more than 100 other nations. Energy consumption is the lifeblood of the U.S. military – and the supporting governmental infrastructure that facilitates and controls it.

Military investment in renewable energy and related technologies, in many cases, holds the potential to bridge the “valley of death” that lies between research & development and full commercialization of these technologies. As such, the myriad of DOD initiatives focused on fostering cleantech is anticipated to have a substantial impact on the development and growth of the industry as a whole. With projects ranging from the utilization of solar power and wind power for electricity generation, to the adoption of fuel cells for portable power, to the deployment of microgrids for forward base operations and the use of alternative fuels for land, air, and sea transport, all branches of the U.S. military – and many other military and defense entities around the world – are major players in the global cleantech industry.

This Pike Research report provides a comprehensive examination of military applications for renewable energy and related clean technologies including solar energy, wind turbines, biomass, geothermal, hydrokinetic energy, biofuels and synfuels, fuel cells, microgrids, smart meters, and energy efficiency, among others. The study analyzes the economics and performance characteristics of emerging energy technologies across a host of application areas within the facilities, transport, and portable power domains. It includes detailed profiles of key industry players and provides detailed market forecasts through 2030.
Key Questions Addressed:

What is the National Security Mandate to incorporate renewable energy technologies into the mainstream of military and DOD activities?
What are the key DOD energy consumption and renewable energy initiatives for facilities and infrastructure?
How much fuel does the DOD fuel consume and what are the leading alternative fuel initiatives?
What are the key renewable energy initiatives to support soldier power and forward operating bases?
What is the current status and direction of advancement of renewable energy technology for the DOD?
What are the expected near term and long term trends for DOD development and incorporation of renewable energy and related clean energy technologies?

Who needs this report?

Defense contractors
Private industry renewable energy sectors
Government agencies
Utility and energy industries
Renewable energy project developers
Renewable energy manufacturers, suppliers, installers, and vendors
Investor community and financial institutions
Technology researchers

Table of Contents

1. Executive Summary

1.1 Energy and National Security

1.2 Current Major Renewable Energy Initiatives

1.3 DOD Total Spending and Energy Consumption

1.4 U.S. and DOD Energy Consumption Patterns and Projections for Renewable Energy

1.5 DOD Energy Consumption Patterns

1.6 Renewable Energy Technologies for Facilities and Infrastructure

1.6.1 Energy Efficiency for DOD Facilities

1.6.2 Direct Investments in RE Initiatives

1.6.3 Net-Zero Plus Initiative

1.6.4 Enhanced Use Lease (EUL) and Power Purchase Agreements (PPAs)

1.7 Tactical Energy Consumption and Renewable Energy for Mobility

1.8 Renewable Energy Technologies in Forward Operating Bases and Tactical Operations

1.9 Market Forecast for DOD Spending on Procurement and Production of Renewable Energy

2. Background: Directives and Policy

2.1 Energy and National Security

2.2 Energy – The New Declaration of Independence

2.3 Energy Security and the Military: The DOD Energy Security Task Force

2.3.1 DOD Energy Security Goals

2.3.2 Focus on New Technologies

2.4 U.S. Energy Independence and National Security Energy Mandates: Major Legislation

2.4.1 Energy Policy Act 2005 (EPAct 2005) (Public Law 109-588, August 2005)

2.4.2 Energy Independence and Security Act of 2007 (EISA 2007) (Public Law 110-140-19, December 2007)

2.4.3 National Defense Authorization Act (NDAA) 2009 (Public Law 110-417-14, October 2008)

2.4.4 National Defense Authorization Act 2010 (Public Law 111-84-28, October 2009)

2.4.5 The ACES Act and Kerry-Lieberman American Power Act (2010)

2.4.6 Military Energy Security Act (DoDESA 2010) (H.R. 5230)

2.4.7 American Recovery and Reinvestment Act (ARRA) (2009)

2.4.7.1 Key ARRA Renewable Energy-Related Appropriations

2.4.7.2 Key DOD ARRA 2009 Programs with Renewable Energy Implications

2.5 U.S. Energy Independence and National Security Energy Mandates: Executive Orders

2.5.1 Executive Order 13423 of January 24, 2007 Strengthening Federal Environmental, Energy, and Transportation Management

2.5.2 Executive Order 13514 of October 5, 2009 – Federal Leadership in Environmental, Energy, and Economic Performance

2.6 U.S. Energy Targets

2.6.1 U.S. Renewable Fuel Targets

2.6.2 U.S. State-Level Energy Goals and Standards

2.7 Implications of Climate Change on the Military and National Security

2.7.1 Effects of Climate Change on Foreign Policy

2.7.2 Effects of Climate Change on DOD and Military Operations

2.7.3 The Mandate for Climate Change Solutions and Reduction of GHG in the Name of National Security and Economic Stability

2.8 Fossil Fuel Limitations: Energy and Defense Implications

2.9 International Directives/Policy Initiatives on Climate Change/Greenhouse Gases/UNFCCC

2.9.1 UNFCCC: Rio 1992/Kyoto 1996/Copenhagen 2009

3. Department of Defense Background

3.1 History

3.2 Organization/Structure/Departments within the DOD

3.2.1 Command Structure of the U.S. Military

3.3 Facilities and Installations

3.3.1 Military Bases

3.3.1.1 Global Distribution of U.S. Military Bases

3.3.1.2 U.S. Military Bases in the United States

3.4 DOD and Energy: Background

3.5 DOD Total Spending and Energy Consumption

3.5.1 DOD Spending Trends

3.5.1.1 Energy Consumption and Generation

3.5.2 U.S. and DOD Energy Consumption Patterns

3.5.3 U.S. Military Energy Consumption, Costs, CO2 Emissions

3.5.4 DOD Facility Energy Consumption

3.5.5 DOD Fuel Consumption

3.6 DOD Current Renewable Energy Priorities and Strategy

3.7 Energy as a Key Component of the DOD Acquisition Process

4. Major Renewable Energy Markets

4.1 Total Military/Defense Energy Market

4.2 Major RE Markets by RE Sector

4.2.1 Solar Energy

4.2.1.1 Large-Scale Solar Facilities on DOD Property

4.2.1.2 Market Size

4.2.1.3 Cost

4.2.1.3.1. Historic and Current Cost Trends of Solar PV on DOD Property

4.2.1.4 Space-Based Solar Power

4.2.1.5 Small-Scale Building Integrated Solar Photovoltaic (BIPV), Solar Thermal, and Solar Hot Water

4.2.1.6 Case Study: Ft. Drum, New York – Integration of Solar Thermal, Solar Air Heated, and Geothermal System

4.2.1.7 Case Studies: Recent DOD Contracts in Small-Scale Solar PV, Solar BIPV, and Power Purchase Agreements

4.2.1.7.1. Atlantic Contingency Constructors

4.2.1.7.2. SunEdison et al

4.2.1.7.3. Borrego Solar Systems

4.2.1.8 Flexible Solar Technologies

4.2.2 Wind Energy

4.2.2.1 Wind Energy Trends in DOD Markets

4.2.2.2 Cost

4.2.2.2.1. Cost per Kilowatt-Hour

4.2.2.2.2. Equipment Costs

4.2.2.3 Market Size

4.2.2.4 Wind Turbine Conflicts with Military Radar

4.2.3 Biomass Energy

4.2.4 Geothermal Energy

4.2.4.1 Case Study: China Lake Naval Air Weapons Station

4.2.4.1.1. China Lake: Key Industry Partners

4.2.4.2 Hydrocarbon Production Wells

4.2.4.3 Ground Source Geothermal Heat Pumps (GSHPs)

4.2.5 Waste to Energy

4.2.5.1 Leading Companies Currently Working with DOD on Waste to Energy (WTE)

4.2.5.2 Mobile Waste to Energy

4.2.6 Military Microgrids

4.2.6.1 DOD Microgrid Initiatives

4.2.6.1.1. Overview

4.2.6.1.2. Military Energy Surety Microgrid System

4.2.6.2 Case Study: Twentynine Palms Marine Base

4.2.6.2.1. Summary

4.2.7 Hydrokinetic, Tidal, and Wave Energy

4.2.8 Fuel Cells

4.2.9 Ocean Thermal Energy Conversion (OTEC)

4.2.10 Hydropower

4.2.11 Smart Metering

4.3 Current RE Projects on DOD Facilities and Installations

4.4 Enhanced Use Lease (EUL)

4.5 Power Purchase Agreements/Federal Acquisition Regulation

4.6 Net-Zero Plus Facilities

4.6.1.1 Case Study: Ft. Bliss, Texas – Net-Zero Plus

4.6.1.2 Net-Zero Goals

4.6.1.3 Net-Zero Applications to Tactical Operations

4.7 Energy Conservation

4.7.1 DOD and DOE Federal Energy Management Program Interaction

4.7.2 Defense Energy Conservation Investment Program

4.7.3 Energy Savings Performance Contracts

4.7.4 Utility Savings Contracts

4.7.5 Energy Conservation for Tactical Operations

4.7.6 Total DOD Energy Conservation Market

5. Forward Operating Bases and Temporary Facilities

5.1 Background

5.2 Mobile Power Generation

5.2.1 Project Manager Mobile Electric Power (PM-MEP)

5.2.2 Relative Fuel Consumption in Peacetime versus Wartime Scenarios

5.2.2.1 Mobile Power Market Size

5.2.2.2 Value Proposition

5.2.2.3 Key Industry Players

5.2.3 Current Opportunities for Acquisitions through the PM-MEP

5.2.4 Efficient Use of JP-8

5.2.5 Experimental Forward Operating Base Initiative (ExFOB)

5.2.5.1 Current Priority ExFOB Technologies

5.2.6 Mobile Flexible Solar Power

5.2.7 Current DARPA Flexible Solar Projects

5.3 Hybrid Intelligent Power (HI-Power)

5.3.1 Leading Industry Players

5.4 GREENS Project

5.5 MicroGREEN Mobile Power Initiative

5.6 Microgrid Applications for Tactical Operations

5.6.1 Leading Industry Players

6. Transportation and Mobility

6.1 Background

6.1.1 Total Fuel by Type

6.1.2 DOD Fuel and Energy Consumption by Application: Peacetime versus Contingency Operations

6.2 Fully Burdened Cost of Fuel (FBCF)

6.3 Current U.S. Government Biofuels Initiatives with Impact on DOD

6.3.1 Defense Energy Support Center (DESC)

6.3.1.1 DESC Support of Alternative Fuels

6.3.2 DARPA-Sponsored Research on Biofuels for the Military

6.3.2.1 The DARPA Phase O BioFuels Program

6.3.2.2 DARPA Phase I and II Biofuels Program (BioFuels: Alternative Feedstocks Program)

6.4 Aircraft

6.4.1 Synthetic Fuel (Synfuels)

6.4.1.1 Select Synfuels Industry Leaders

6.4.1.2 Alternative Use of JP-8

6.5 Land Vehicles

6.5.1 Tactical Vehicles, Trucks, and Tanks

6.5.2 Joint Light Tactical Vehicles (JLTV)

6.5.3 Non-Tactical Vehicles

6.6 Marine Vessels

6.6.1 Fuel Cells for Naval Vessels

6.6.2 Fuel Cells for Underwater Vessels and Vehicles

6.6.3 Microbial Fuel Cells

6.6.4 Stationary Fuel Cells for Naval Bases

6.7 Leading Industry Players: Biofuels from Algae Efforts in the Private Sector with DOD Implications

6.7.1 BP/Martek Biosciences

6.7.2 General Atomics

6.7.3 Chevron Technology Ventures /Solazyme

6.7.4 Honeywell UOP

6.7.5 Algae Systems/NASA

6.7.6 LS9, Inc.

6.7.7 Algenol Biofuels/Valero

6.7.8 Synthetic Genomics Inc./Exxon Mobile

6.7.9 Sapphire Energy

6.7.10 Science Applications International

6.7.11 A2BE Carbon Capture

6.8 Other Industry Players with Potential Impact on DOD Fuel Markets

6.8.1 Solix

6.8.2 PetroAlgae

6.8.3 Aurora Algae (Aurora Biofuels)

6.8.4 LiveFuels

6.8.5 Heliae Development

6.8.6 Kai BioEnergy

6.8.7 LakeMaster

6.8.8 Dynamic Fuels

6.8.9 Rentech

6.8.10 Sustainable Oils

6.8.11 ClearFuels Technology

6.8.12 HR BioPetroleum

6.8.13 AltAir Fuels

6.8.14 EADS

6.8.15 Bye Energy

6.9 Summary

7. Soldier Power

7.1 Background

7.2 Fuel Cells for Portable Power Applications

7.2.1 Basic Fuel Cell Technologies and Current Military Applications

7.2.1.1 Army Fuel Cell Program

7.2.1.2 Navy Fuel Cell Program

7.2.2 Portable Applications: Military Fuel Cell Technology for DOD Warfighters (Selected Markets)

7.2.3 Unattended Ground Sensors – Sub-50W

7.2.3.1 Addressable Market

7.2.3.2 Projected Power Requirements

7.2.3.3 Cost

7.2.3.4 Key Market Players

7.2.3.5 Summary

7.2.3.6 Market Size

7.2.3.7 Projected Power Requirements

7.2.3.8 Cost

7.2.3.9 Value Proposition

7.2.4 Mobile Power – Sub-250W

7.2.4.1 Market Size

7.2.4.2 Projected Power Requirements

7.2.4.3 Cost

7.2.4.4 Value Proposition

7.2.5 Fully Burdened Costs of Soldier Power

7.2.6 Mobile Radio Market – Tactical Satellite Radio

7.2.6.1 Market Size

7.2.6.2 Projected Power Requirements

7.2.6.3 Cost

7.2.6.4 Value Proposition

7.2.7 Auxiliary Power Units (APUs) – Sub-2 kW

7.2.7.1 Market Size

7.2.7.2 Projected Power Requirements

7.2.7.3 Cost

7.2.7.4 Value Proposition

7.3 Planned DOD Upcoming Business Opportunities Related to Soldier Power

8. Markets and Initiatives by Major Military Branches

8.1 RE Focus by Military Branch

8.2 Army

8.2.1 Directives

8.2.2 Current Renewable Programs

8.2.3 U.S. Army Renewable Energy Targets

8.3 Air Force

8.3.1 Directives

8.3.2 Current Renewable Programs

8.3.3 Air Force RE Targets

8.4 Navy/Marines

8.4.1 Directives

8.4.2 Current Renewable Programs

8.4.3 Navy/Marine Renewable Energy Targets

8.4.4 Case Study: Office of Naval Research Energy Challenge Program

9. Key Industry Players

9.1 Select Major Defense Contractors

9.1.1 Lockheed Martin Corp.

9.1.1.1 Solar Energy

9.1.1.2 Ocean Thermal Energy Conversion (OTEC)

9.1.1.3 Wave Energy

9.1.1.4 Synthetic Fuels

9.1.1.5 Smart Grid

9.1.2 Boeing Co.

9.1.2.1 Biofuels

9.1.2.2 Solar Cell Technology

9.1.3 Northrop Grumman Corp.

9.1.3.1 Hybrid-Electric Propulsion

9.1.4 Science Applications International Corp.

9.1.4.1 Algae to Biofuels, Alternative Fuels

9.1.4.2 Solar Technologies

9.1.4.3 Marine Energy and Wind Technologies

9.1.5 General Dynamics Corp.

9.1.5.1 Fuel Cell Technology

9.1.5.2 Hybrid-Electric Technology

9.1.6 Raytheon Co.

9.1.6.1 Carbon Recycling Technology – Closed Bed Photo Bioreactors

9.1.6.2 Carbon Sequestration

9.1.6.3 Cyber Security and Software Modeling

9.1.7 Booz Allen Hamilton

9.1.7.1 Alternative Energy and Energy Efficiency Solutions

9.1.7.2 Renewable Energy Projects on DOD Property

9.1.8 L-3 Communications

9.1.8.1 Hybrid Fuel Cell Systems

9.1.9 KBR Inc.

9.1.9.1 Biomass/Biofuels/Waste to Energy

9.1.10 ITT Corp.

9.1.10.1 Geothermal Energy Products

9.1.11 Hewlett-Packard Company

9.1.11.1 Lightweight Flexible Solar Technologies

9.1.12 General Electric

9.1.12.1 Microgrid Technology Development

9.1.12.2 Solar

9.1.12.3 Wind

9.1.13 Harris Corporation

9.1.14 BAE Systems, Inc.

9.1.14.1 Marine Energy Conversion

9.1.14.2 Hybrid-Electric and Fuel Cell Propulsion Systems

9.2 Other Select Military/Defense Contractors with a Strong Focus on Renewable Energy

9.2.1 General Atomics

9.2.1.1 Renewable Energy Power Conversion

9.2.1.2 Space Power Conversion

9.2.1.3 Biofuels from Algae

9.2.2 Honeywell International

9.2.3 Oshkosh Defense

9.2.3.1 ProPulse Hybrid-Electric Drive

9.2.3.2 Renewable Energy Mission Module (REMM)

9.2.4 Protonex Technology Corporation

9.2.5 Rolls-Royce plc

9.2.5.1 Fuel Cells

9.2.5.2 Power Management and Distribution Systems (Microgrids)

9.2.5.3 Hybrid-Electric Propulsion Systems

9.2.6 SkyBuilt Power

9.2.7 Natural Power Concepts (NPC)

9.2.8 Energy Conversion Devices – ECD Ovonics

9.2.9 DuPont/SFC Energy AG

9.2.10 Bechtel Corporation

9.2.11 Clark Energy Group

9.2.12 ACCIONA Solar Power, Inc.

9.2.13 SRA International

10. Market Forecasts

10.1 Total World Renewable Energy Market Forecast

10.2 Total Global Oil Production Forecast

10.3 National Security Directives

10.4 Purchase, Production, and Procurement of Renewable Energy Sourced Alternative Fuels and Electricity for Facilities and Infrastructure: 2010-2030

10.5 Reduction in Energy Consumption

10.6 Electricity Production and Procurement of Electricity for Facilities and Infrastructure by Market Sector

10.7 Facilities and Installations Market by Application

10.8 Metering of DOD Buildings and Facilities

10.9 Forward Bases and Temporary Facilities

10.10 Soldier Power Fuel Cell Technologies

10.11 Alternative Fuels

10.11.1 U.S. Biofuels Production from Algae Feedstocks

10.12 World Market Forecasts Excluding the United States

10.12.1 European Union

10.12.2 China

10.12.3 Global Military Spending Outside the United States, the EU, and China

11. Company Directory

12. Acronym and Abbreviation List

13. Table of Contents

14. Table of Charts and Figures

15. Scope of Study, Sources and Methodology, Notes
List of Charts and Figures

Total DOD Renewable Energy Spending: 2005-2030
Renewable Fuel Standard Mandate, United States: 2009-2022
Snapshot of Cost per Gallon Algae versus Transportation Fuels
Total DOD Direct Annual Market for All Renewable Energy Purchases, Production, and Procurement for Mobility and Facilities: 2005-2030
Total DOD Direct Annual Market for All RE Purchases, Production, and Procurement for Mobility and Facilities: 2005-2030
Total DOD Annual Market Electricity Production and Procurement for Renewable Energy for Facilities and Installations by Market Sector: 2010-2030
Total DOD Direct Annual Expenditures by Market Application – Facilities and Installations: 2010-2030
Total DOD Direct Annual Expenditures by Market Application, Emphasizing Metering of Facilities and Installations: 2005-1012
Total DOD Market for Annual Direct Costs and Acquisition of RE Devices for Mobile Power for FOBs and Temporary Facilities: 2010-2030
Total DOD Direct Expenditures for Fuel Cells for Soldier Power-Related Technologies: 2010-2030
Price Parity Experience Curve for Algae-Based Biofuels, United States: 2009-2020
Algae Biofuels Production, North America: 2010-2020
Total Direct Annual Expenditures for Combined 27 Member States of the EU
Countries for Total Energy and RE in Military and Defense Applications: 2010-2030
Total Direct Annual Expenditures for Renewable Energy in Military and Defense Applications, China: 2010-2030
Total Direct Annual Expenditures Outside the U.S., EU, and China for RE in Military and Defense Applications: 2010-2030
The 14 MW Solar Array at Nellis Air Force Base
The First U.S. Navy “Green Ship” – The USS Makin Island
The U.S. Air Force and U.S. Navy Complete Biofuel-Powered Test Flights: 2010
U.S. Federal Spending and Proportional DOD Expenditures
Upper Estimates for Combined Spending for All “Defense-Related” Activities
Comparison of U.S. Energy Consumption to DOD Energy Consumption by Type
Office of the Secretary of Defense Energy Policy
Summary Graphic of U.S. Energy Security Risk
U.S. Renewable Portfolio Standards by State
Projected Impacts of U.S. Climate Change Legislation on GDP to FY 2030
Upper Estimates for Combined Spending for All “Defense-Related” Activities
U.S. Military Energy Consumption by Type: 2009
Comparison of U.S. Energy Consumption to DOD Energy Consumption by Type
U.S. Military Energy Consumption, Costs, and CO2 Emissions: 2009
DOD Proportion of Total U.S. Government Fuel Consumption
Comparison of Commercial RE Market Trends to Current DOD RE Initiatives
Optimum U.S. Solar Energy Development Potential in Relation to DOD Facilities and Properties
Optimum U.S. Wind Energy Development Potential in Relation to DOD Facilities and Properties
Optimum U.S. Biomass Energy Development Potential in Relation to DOD Facilities and Properties
Distribution of Primary Military Geothermal Resources and Potential Geothermal Projects
Optimum U.S. Geothermal Energy Development Potential in Relation to DOD Facilities and Properties
Current and Proposed DOD Microgrid Projects
Current Level and Proportional Army Investment in Research of Essential Microgrid Components
Current Smart Metering Initiatives of DOD Facilities and Buildings
Major Alternative and Renewable Energy Initiatives in DOD Mobile Power
Key Areas of Interest and Major Initiatives for the Power Technology and Alternative Energy Branch of the Army, Under RDECOM and CERDEC DOD Fuel Consumption by Type (0% indicates less than 1%)
DOD Energy Consumption by Application, Peacetime versus Contingency Operations
Battery-Powered Soldier Equipment; Lockheed Martin’s HULC Exoskeleton
General Categories of Soldier Power Energy Requirements and Examples of Current Renewable Energy Programs and Initiatives
U.S. Air Force, Navy, and Army Fuel and Energy Utilization
Power Generation Forecasts by Policy Scenario, World Markets: 2005-2030
Costs of Energy in Cents per kWh, System Price Range and Market Penetration: 1990-2020
Forecast of Global Oil Production to 2030; OPEC to Non-OPEC Production Ratios
Projected Defense Spending for the People’s Republic of China: 2003-2025
Global Distribution of Military Expenditures: 2009

List of Tables

Targets for Conversion of Energy Consumption to Renewable Energy Sources
Total ARRA Near- and Long-Term DOD Agency-Wide and Program-Specific Programs
U.S. Biofuels Targets for 2022
State-Level Renewable Energy Goals and Mandates by Target Year
International Renewable Energy Targets
Office of the Secretary of Defense Structure, Organization, and Departments
Installed Costs per kW for Solar PV, U.S. Domestic Market: 2008-2012
Number of DOD Renewable Energy Initiatives by Type: 2010
Key Industry Investments in Algae Biofuels, World Markets with DOD implications
Military – Fuel Cell Technology for DOD Warfighters (Selected Markets)
AESIS Summary of Energy Security Goals & Objectives
Total DOD Direct Annual Market in for All Renewable Energy Purchases, Production, and Procurement for Mobility and Facilities: 2010-2030 with Constant 2010 Rates of Energy Consumption
Total DOD Direct Annual Market for All Renewable Energy Purchases, Production, and Procurement for Mobility and Facilities: 2010-2030 (with 15% reduction in energy consumption)
Total DOD Direct Annual Market for All Renewable Energy Purchases, Production, and Procurement for Mobility and Facilities: 2010-2030 (with 30% reduction in energy consumption)
Total DOD Annual Market Electricity Production and Procurement for Renewable Energy for Facilities and Installations by Market Sector: 2010-2030
Total DOD Direct Annual Expenditures by Market Application, Facilities and Installations: 2010-2030
Total DOD Market for Annual Direct Costs and Acquisition of Renewable Energy Devices for Mobile Power for Forward Bases and Temporary Facilities: 2010-2030
Total DOD Direct Expenditures for Fuel Cells for Soldier Power-Related Technologies: 2010-2030
Total Direct Annual Expenditures for Combined 27 Member States of the European Union Countries for Total Energy and Renewable Energy in Military and Defense Applications: 2010-2030
Total Direct Annual Expenditures for Renewable Energy in Military and Defense Applications, China: 2010-2030
Total Direct Annual Expenditures Outside the U.S., EU, and China for Renewable Energy in Military and Defense Applications: 2010-2030
Annual Budgeted Expenditures for U.S. Wars in Iraq and Afghanistan: 2001-2010
Installed Costs per kW for Residential- and Commercial-Scale Solar PV, U.S. Domestic Market: 2008-2012
Number of DOD Renewable Energy Initiatives by Type: 2010
Top 20 U.S. Defense Contractors, Total DOD Contracts for 2009 and 2009 Rank

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