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Sustainable Energy Solutions for Military Mission Systems - Market and Technology Forecast to 2032

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    Report

  • 212 Pages
  • December 2023
  • Region: Global
  • Market Forecast
  • ID: 5920683

Market forecasts by Mission System, End-User, and Region. Country Analysis, Market and Technology Overview, Opportunities and Impact Analysis, and Leading Company Profiles

Sustainable energy for the military’s mission systems is the use of renewable and efficient sources of power to reduce the environmental impact and operational costs of military operations, as well as to enhance the security and performance of military forces. Climate change poses significant risks to the military assets, missions, and regions of interest of the armed forces, and requires them to adapt and respond to new threats and scenarios. At the same time, sustainable energy can offer operational advantages, such as increased energy independence, resilience, and efficiency, as well as reduced logistics and maintenance burdens.

This report examines, analyses, and predicts the evolution of sustainable energy for military mission systems, markets, and outlays (expenditures) over the next 8 years: 2024-2032. It also examines the sustainable energy technology for military application markets geographically, focusing on the top 95% of global markets, in the United States, Europe, and Asia.

In this study, we analyse the market size of the Global Sustainable Energy Market for Military Mission System market for the period 2024-2032. We primarily focus on the key markets - Americas, Europe, Asia, the Middle East, and Africa. As of now, the United States remains the largest market for sustainable energy for military mission systems. European Union and China are emerging markets. Throughout the report, we show how sustainable energy technology is used today to add real value.

Covered in this Study

  • Overview: Snapshot of the Sustainable Energy for Military Mission Systems during 2024-2032, including highlights of the demand drivers, trends, and challenges. It also provides a snapshot of the spending with respect to regions as well as segments. It also sheds light on the emergence of new technologies
  • Market Dynamics: Insights into the technological developments in the Sustainable Energy for Military Mission systems market and a detailed analysis of the changing preferences of governments around the world. It also analyses changing industry structure trends and the challenges faced by the industry participants.
  • Segment Analysis: Insights into the various systems market from a segmental perspective and a detailed analysis of factors influencing the market for each segment.
  • Regional Review: Insights into modernization patterns and budgetary allocation for top countries within a region.
  • Regional Analysis: Insights into the systems market from a regional perspective and a detailed analysis of factors influencing the market for each region.
  • Trend Analysis: Key Sustainable Energy Technologies for Military Mission System Market: Analysis of the key markets in each region, providing an analysis of the various Systems segments expected to be in demand in each region.
  • Key Program Analysis: Details of the top programs in each segment expected to be executed during the forecast period.
  • Competitive Landscape Analysis: Analysis of the competitive landscape of this industry. It provides an overview of key companies, together with insights such as key alliances, and strategic initiatives. and a brief financial analysis.

Segmentation

The publisher has segmented the Sustainable Energy for Military Mission Systems market into three major groups. We've researched these major segments and provided forecast figures for 2024 - 2032. The segments are:

Region

  • North America
  • Latin America
  • Europe
  • APAC
  • Middle East & Africa

Mission System

  • Radar and Sensor
  • Communication Device
  • Lightning Device
  • Uncrewed System
  • Vehicle
  • Weapon
  • Military Base

End User

  • Air Force
  • Army
  • Navy

Reasons to Buy

  • Determine prospective investment areas based on a detailed trend analysis of the Global Sustainable Energy for Military Mission Systems Market over the next eight years
  • Gain an in-depth understanding about the underlying factors driving demand for different systems segments in the top spending countries across the world and identify the opportunities offered by each of them
  • Strengthen your understanding of the market in terms of demand drivers, industry trends, and the latest technological developments, among others
  • Identify the major channels that are driving the global small business, providing a clear picture of future opportunities that can be tapped, resulting in revenue expansion
  • Channelize resources by focusing on the ongoing programs that are being undertaken by the ministries of different countries within the Sustainable Energy for Military Mission Systems market
  • Make correct business decisions based on thorough analysis of the total competitive landscape of the sector with detailed profiles of the top systems providers around the world which include information about their products, alliances, recent contract wins, and financial analysis wherever available

Table of Contents

1. Introduction
1.1 Scope
1.2 Methodology
1.3 Who will benefit from this study?
2. Executive Summary
2.1 Trends and Insights
2.2 Main Findings
2.3 Key Conclusions
3. Technologies and Developments
3.1 Technology overview
3.1.1 Military Aviation Mission System
3.1.2 Other Mission Systems
3.2 Types of Sustainable Aviation Fuel
3.3 Current Technology
3.4 Future Technology
3.4.1 Sodium Thermal Electrochemical Converter (Na - TECC)
3.4.2 New Breed of Betavoltaics
3.4.3 Thermoelectric Generators
3.4.4 Electromagnetic Energy Harvesters
3.4.5 Piezoelectric Energy Harvesters
3.4.6 Brewed Jet Fuel out of Carbon Dioxide
3.4.7 Offshore Wind Aided by Uncrewed Aerial Vehicles
3.4.8 Pumped Storage + Renewables
3.4.9 Printable Organic Solar Cells
3.4.10 Microbial Fuel Cell (MFC) Technology
3.4.11 Graphene Battery that can Recharge itself
4. Market Overview
4.1 Introduction
4.2 Sustainable Energy Solutions for Military Mission Systems - Market volumes distribution over the forecast period by Region
4.3 Competitive Landscape
4.4 Supply Chain Analysis
5. Market Analysis and Forecast Factors
5.1 Market Segmentation
5.1.1 Region
5.1.2 Mission System
5.1.3 End User
5.2 Drivers
5.3 Trends
5.4 Opportunities
5.5 Challenges
6. Country Analysis
6.1 USA
6.2 United Kingdom
6.3 France
6.4 Germany
6.5 Sweden
6.6 Australia
6.7 Japan
6.8 India
6.9 China
6.1 Brazil
7. Global and Regional Market Forecast to 2032
7.1 Introduction
7.2 Sustainable Energy Solutions for Military Mission Systems market by Region overview
7.2.1 North America
7.2.2 Latin America
7.2.3 Europe
7.2.4 APAC
7.2.5 Middle East and Africa
7.3 Opportunity Analysis
8. Global and Regional Market Forecast to 2032 by Mission System
8.1 Introduction
8.2 Sustainable Energy Solutions for Military Mission Systems market by Mission System overview
8.2.1 Radar and Sensor market by Region
8.2.2 Communication Device market by Region
8.2.3 Lightning Device market by Region
8.2.4 Uncrewed System market by Region
8.2.5 Vehicle market by Region
8.2.6 Weapon market by Region
8.2.7 Military Base market by Region
8.3 Opportunity Analysis
9. Global and Regional Market Forecast to 2032 by End-User
9.1 Introduction
9.2 Global Sustainable Energy Solutions market by End-User overview
9.3 Air Force End-Users market by Region
9.4 Army End-Users market by Region
9.5 Navy End-Users market by Region
9.6 Opportunity Analysis
10. Impact Analysis
10.1 Introduction
10.2 Forecast factors and Market Impact
10.2.1 Scenario 1 - Balancing sustainability with security concerns
10.2.2 Scenario 2 - Rapid acceleration towards sustainability
10.2.3 Scenario 3 - Unforeseen events reshape the landscape
11. Leading Companies
11.1 Introduction
11.1.1 Airbus
11.1.2 Sustainable Energy Solutions - Products and Services
11.1.3 Recent Developments and Contracts
11.1.4 SWOT Analysis
11.2 Boeing
11.2.1 Sustainable Energy Solutions - Products and Services
11.2.2 Recent Developments and Contracts
11.2.3 SWOT Analysis
11.3 Lockheed Martin
11.3.1 Sustainable Energy Solutions - Products and Services
11.3.2 Recent Developments and Contracts
11.3.3 SWOT Analysis
11.4 Introduction
11.4.1 Sustainable Energy Solutions - Products and Services
11.4.2 Recent Developments and Contracts
11.4.3 SWOT Analysis
11.5 Safran
11.5.1 Sustainable Energy Solutions - Products and Services
11.5.2 Recent Developments and Contracts
11.5.3 SWOT Analysis
11.6 Other Companies of Interest
11.6.1 ABB Ltd
11.6.2 Acciona Energy
11.6.3 Alstom S.A
11.6.4 BAE Systems
11.6.5 CPFL Energia SA
11.6.6 CropEnergies AG
11.6.7 ENEL Green Power SPA
11.6.8 First Solar
11.6.9 General Electric
11.6.10 GCL Poly
11.6.11 Green Plains
11.6.12 Guodian Technology & Environment Group Corp Ltd
11.6.13 Hanergy Holding Group Ltd.
11.6.14 Honeywell Energy Solutions
11.6.15 Inox Wind
11.6.16 Jiangsu Akcome Science & Technology Co, Ltd.
11.6.17 Motech Industries
11.6.18 NextEra Energy Inc
11.6.19 Pacific Ethanol Inc
11.6.20 Renewable Energy Systems
11.6.21 Siemens Gamesa Renewable Energy
12. Results and Conclusions
Appendix A:
Companies Mentioned

Appendix B:
Abbreviations

List of Figures
Figure 1: AbramsX Hybrid MBT
Figure 2: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Region [US$ billion]
Figure 3: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Military Mission Systems [US$ billion]
Figure 4: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by End User [US$ billion]
Figure 5: F 404 afterburning turbofan engines
Figure 6: Solar powered radar system
Figure 7: Solar Portable Alternative Communication Energy System
Figure 8: Electric version of Joint Light Tactical Vehicle
Figure 9: M-777 howitzer artillery linked to solar panels
Figure 10: Marine Corps Logistics Base ­Albany
Figure 11: Technology Readiness Level of Production Pathways
Figure 12: Hydrogen fuel cell
Figure 13: Idaho National Laboratory Transient Reactor Test Facility
Figure 14: U.S. Navy Wave Energy Test Site Mokapu Peninsula, Marine Corps Base Hawai
Figure 15: Wind turbine at Ford Hood
Figure 16: Waste to energy conversion system
Figure 17: Na-TECC engine
Figure 18: Tritium Batteries
Figure 19: Capable of up to 14,000? A, the Prometheus PRMT02-34465 Flat Surface Kit is a powerful remote power source.
Figure 20: Schematic of Heel Strike Generator
Figure 21: Carbon distillation system
Figure 22: Storing energy at sea
Figure 23: Organic solar cell structure
Figure 24: Schematic for Basic Microbial Fuel Cell Components
Figure 25: Schematic depiction of a typical single-chamber MFC
Figure 26: A scanning tunneling microscope
Figure 27: Market volumes over the forecast period per region
Figure 28: Battery energy storage solutions
Figure 29: Odysseus solar powered drone
Figure 30: Portable solar system combines highly efficient solar panels, a solar charger, a power inverter and a Lithium Polymer battery into a robust, waterproof case
Figure 31: Hawk Battery Energy Storage System seamlessly integrates into established microgrids, powers worksites
Figure 32: phelas Aurora thermodynamic storage system
Figure 33: Modern Organic Rankine Cycle generating technology
Figure 34: Wind Energy Supply Chain
Figure 35: Market Segmentation and Sub Segmentation Military Avionics Market
Figure 36: Mini wind turbine
Figure 37: Autonomous Energy Systems
Figure 38: DoD Percentage of Energy Consumption for OE and IE by Service (FY22)
Figure 39: Geothermal energy prototype facility
Figure 40: Solar panels at the Marine Corps Air-Ground Combat Center, California
Figure 41: M142 HIMARS being charged using solar power
Figure 42: Technology Demonstrator 6 Project - Battlefield vehicles undergoing testing for their suitability for hybrid propulsion
Figure 43: Griffon hybrid vehicle
Figure 44: Volvo Penta D 13 engine
Figure 45: Solar Micro Grid
Figure 46: Solar farms on Defence establishments in the Northern Territory
Figure 47: Refined tellurium, a rare mineral used in solar panels
Figure 48: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Region [US$ billion]
Figure 49: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Region - North America [US$ billion]
Figure 50: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Region - Latin America [US$ billion]
Figure 51: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Region - Europe [US$ billion]
Figure 52: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Region - APAC [US$ billion]
Figure 53: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Region - Middle East & Africa [US$ billion]
Figure 54: Global Sustainable Energy Solutions for Military Mission Systems: Market Size comparison [US$ Billion]
Figure 55: Global Sustainable Energy Solutions for Military Mission Systems: CAGR growth for Regions
Figure 56: Global Sustainable Energy Solutions for Military Mission Systems Market Forecast to 2032 by Mission Systems [US$ billion]
Figure 57: Global Sustainable Energy Solutions for Military Mission Systems Market Forecast to 2032 by Mission Systems - Total [US$ billion]
Figure 58: Radar and Sensor Market [US$ billion]
Figure 59: Communication Device Market [US$ billion]
Figure 60: Lightning Device Market [US$ billion]
Figure 61: Uncrewed System Market [US$ billion]
Figure 62: Vehicle Market [US$ billion]
Figure 63: Weapon Market [US$ billion]
Figure 64: Military Base Market [US$ billion]
Figure 65: Global Sustainable Energy Solutions for Military Mission Systems - Market Forecast: CAGR growth for Military Mission Systems
Figure 66: Global Sustainable Energy Solutions for Military Mission Systems Market Forecast to 2032 by End User [US$ billion]
Figure 67: Air Force [US$ billion]
Figure 68: Army [US$ billion]
Figure 69: Navy [US$ billion]
Figure 70: Global Sustainable Energy Solutions for Military Mission Systems - Market Forecast: CAGR growth for End Users
Figure 71: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Region - Scenario 2 [US$ billion]
Figure 72: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Region - Scenario 3 [US$ billion]
Figure 73: Comparing Scenario II and Scenario III
Figure 74: Gridstar Flow process
Figure 75: Photovoltaic subassembly
Figure 76: eRider hybrid vehicle
Figure 77: Acciona Energy's photovoltaic plant at Amaraleja, Portugal
Figure 78: Acciano built Mediano Hydroelectric Plant, Spain
Figure 79: Ecofining Process
Figure 80: NextEra's Babcock Ranch Solar Energy Center
Figure 81: Siemens SG 2.1-114 On Shore Turbine
Figure 82: Siemens Gamesa SWT-6.0-154 offshore turbine

List of Tables
Table 1: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Region [US$ billion]
Table 2: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Military Mission Systems [US$ billion]
Table 3: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by End User [US$ billion]
Table 4: Possible reasons for electrification of military vehicles
Table 5: Competitive Landscape Quadrants
Table 6: Opportunities for Vendors with Emerging Technologies
Table 7: Market activity
Table 8: Benefits & Challenges of introducing Sustainable Energy for Military Mission Systems
Table 9: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Region [US$ billion]
Table 10: Global Sustainable Energy Solutions for Military Mission Systems Market Forecast to 2032 by Mission Systems [US$ billion]
Table 11: Radar and Sensor Market [US$ billion]
Table 12: Communication Device Market [US$ billion]
Table 13: Lightning Device Market [US$ billion]
Table 14: Uncrewed System Market [US$ billion]
Table 15: Vehicle Market [US$ billion]
Table 16: Weapon Market [US$ billion]
Table 17: Military Base Market [US$ billion]
Table 18: Global Sustainable Energy Solutions for Military Mission Systems Market Forecast to 2032 by End User [US$ billion]
Table 19: Air Force [US$ billion]
Table 20: Army [US$ billion]
Table 21: Navy [US$ billion]
Table 22: Market opportunity for vendors of Military Mission System
Table 23: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Region - Scenario 2 [US$ billion]
Table 24: Global Sustainable Energy Solutions for Military Mission Systems to 2032 by Region - Scenario 3 [US$ billion]
Table 25: Comparing Scenario II and Scenario III
Table 26: Airbus plc Company SWOT Analysis

Companies Mentioned

  • ABB Ltd
  • Acciona Energy
  • Airbus
  • Air Company
  • Alstom S.A
  • Arquus
  • BAE Systems
  • Boeing
  • City Labs
  • CPFL Energia SA
  • CropEnergies AG
  • Edge Autonomy
  • ENEL Green Power SPA
  • Enexor BioEnergy
  • Fervo Energy
  • First Solar
  • GCL Poly
  • General Electric
  • Green Plains
  • Guodian Technology & Environment Group Corp Ltd
  • Hanergy Holding Group Ltd.
  • Honeywell Energy Solutions
  • Inox Wind
  • Jiangsu Akcome Science & Technology Co, Ltd.
  • Kitepower
  • Lockheed Martin
  • Matrix Industries
  • Motech Industries
  • New A.G.E
  • NextEra Energy Inc
  • Pacific Ethanol Inc
  • phelas
  • Renewable Energy Systems
  • Rheinmetall AG
  • Robotic Research LLC
  • Safran
  • Siemens Gamesa Renewable Energy
  • Solar Path Sun Solutions
  • Volvo Penta