ドローン用電源市場の規模、シェア、成長分析 : 2024-2032年までの予測

世界のドローン用電源市場は、軍事、商業、産業分野におけるドローン活用の急増に牽引され、劇的な成長を遂げています。Fortune Business Insightsの最新レポートによると、市場規模は2022年に11億3,900万米ドルに達し、予測期間を通じて大幅な拡大が見込まれています。配送サービス、農業、災害管理、監視といった分野における無人航空機（UAV）の利用増加は、ドローンの電力要件を変革させており、効率的で高性能な電源の開発は市場競争力の重要な要素となっています。

技術開発

• 水素燃料電池技術の近年の進歩は、ドローンの航続距離の限界に革命をもたらしています。企業は、従来のリチウムイオン電池で達成可能な範囲を超えて飛行時間を延長するために、小型軽量の水素貯蔵ソリューションに投資しています。
• 太陽光発電ドローンは、高高度での長時間航続運用において、ニッチながらも有望な分野として台頭しています。天候への依存は依然として課題ですが、太陽光発電材料とエネルギー貯蔵技術の進歩により、その実現可能性は向上すると期待されています。
• 次世代のリチウムシリコン電池と固体電池も研究開発されており、現在のリチウムイオン電池の最大3倍のエネルギー密度を実現し、ドローンの航続距離を2倍にする可能性があります。

Growth Factors of Drone Power Sources Market

The global drone power sources market is witnessing transformative growth driven by the surge in drone applications across military, commercial, and industrial sectors. According to the latest report by Fortune Business Insights, the market was valued at USD one billion one hundred thirty-nine million in 2022 and is projected to expand significantly through the forecast period. The rise in unmanned aerial vehicle (UAV) usage across delivery services, agriculture, disaster management, and surveillance is reshaping the power requirements of drones, making the development of efficient, high-performance energy sources a critical factor in market competitiveness.

Key Market Drivers

One of the most significant drivers is the increased adoption of drones in defense applications, including tactical surveillance, border patrol, and battlefield assessments. These missions often require long endurance and high-altitude capabilities, which are pushing innovation in advanced fuel cells and hybrid power systems.

The commercial sector is also contributing to market momentum. Drones are increasingly used for infrastructure inspections, precision agriculture, real estate photography, and package delivery services. These use cases demand longer flight durations, enhanced battery efficiency, and lightweight energy systems, encouraging research into alternative power sources such as solar-based and hydrogen-powered drones.

Segmentation Insights

The drone power sources market is segmented based on type, drone type, and geography:

By Type:

• Battery-powered drones currently dominate the market, accounting for a major share due to their low cost, compact design, and suitability for short-range commercial and consumer applications.
• Hybrid and fuel cell-powered drones are gaining traction owing to their longer endurance and greater payload capacity, essential for defense and industrial operations.

By Drone Type:

• Small drones (rotary-wing and fixed-wing) are the largest users of battery-powered systems, suitable for short flights and lightweight payloads.
• Medium and large drones, especially in military and logistics, are more reliant on hybrid systems or internal combustion engines to meet long-range and heavy-lift requirements.

Technological Developments

• Recent developments in hydrogen fuel cell technology are revolutionizing the endurance limits of drones. Companies are investing in compact and lightweight hydrogen storage solutions to extend flight times beyond what is achievable with traditional lithium-ion batteries.
• Solar-powered drones are emerging as a niche yet promising category for high-altitude, long-endurance operations. Although weather-dependency remains a challenge, improvements in photovoltaic materials and energy storage are expected to enhance their feasibility.
• Next-gen lithium-silicon and solid-state batteries are also under research and development, promising up to three times the energy density of current lithium-ion batteries, potentially doubling drone endurance.

Regional Analysis

• North America holds the largest share of the drone power sources market, attributed to heavy investments by the U.S. military and leading drone tech startups. The presence of aerospace giants and government-backed research initiatives further strengthens regional dominance.
• Asia Pacific is rapidly emerging as a lucrative market, led by China, India, and Japan, where drone deployment in agriculture, infrastructure, and security is accelerating. Government subsidies and supportive drone regulations are fostering a favorable ecosystem.
• Europe follows closely with a focus on clean energy alternatives, where fuel cell and solar-powered drones are being explored as sustainable options, especially in environmental monitoring and disaster relief operations.

Key Players and Strategic Initiatives

Major players in the drone power sources market include:

• Ballard Power Systems
• Skydio
• H3 Dynamics
• Intelligent Energy
• Doosan Mobility Innovation
• MicroMultiCopter Aero Technology
• HES Energy Systems
• Sion Power

These companies are actively engaged in strategic collaborations, government partnerships, and R&D investments to advance drone propulsion technologies. For instance, Intelligent Energy partnered with drone OEMs to integrate lightweight hydrogen fuel cell stacks for surveillance UAVs.

Future Outlook

As drone applications continue to diversify, the demand for efficient, durable, and scalable power sources will be crucial in shaping the competitive landscape. Future growth will heavily rely on breakthroughs in high-density energy storage, miniaturization of fuel systems, and sustainable propulsion technologies. Emerging areas such as battery swapping stations for delivery drones and AI-optimized power management systems are poised to disrupt the ecosystem.

In summary, the drone power sources market is on a trajectory of robust growth, fueled by innovation and expanding end-use applications. Companies that focus on enhancing power efficiency, reducing weight, and extending flight time will be best positioned to capitalize on this evolving market.

ATTRIBUTE      DETAILS

Study Period          2017-2028

Base Year               2020

Estimated Year      2021

Forecast Period     2021-2028

Historical Period  2017-2019

Unit        Value (USD Billion)

Segmentation        Drone Type; Power Source; Flight Time; Point of Sale; End User and Geography

By Drone Type

• MALE
• HALE
• Special Mission Drone
• Medium and Small Drone
• Nano Drone
• Passenger Drone

By Power Source

• Fuel Cells
• Battery

o               Lithium-ion

o               Lithium-ion Polymer

o               Nickel Cadmium

• Solar Cells
• Non-Renewable
• Hybrid

By Flight Time

• Below 1 Hour
• 1 Hour – 25 Hours
• 25 Hours – 50 Hours
• More than 50 Hours

By Point of Sale

• OEM
• Aftermarket

By End User

• Commercial
• Military

By Geography

• North America (By Drone Type, Power Source, Flight Time, Point of Sale, End User, and Country)

o               The U.S. (By End User)

o               Canada (By End User)

• Europe (By Drone Type, Power Source, Flight Time, Point of Sale, End User, and Country)

o               The U.K. (By End User)

o               Germany (By End User)

o               France (By End User)

o               Russia (By End User)

o               Rest of Europe (By End User)

• Asia-Pacific (By Drone Type, Power Source, Flight Time, Point of Sale, End User, and Country)

o               Japan (By End User)

o               China (By End User)

o               India (By End User)

o               Rest of Asia-Pacific (By End User)

• Rest of the World (By Drone Type, Power Source, Flight Time, Point of Sale, End User, and Country)

o               Latin America (By End User)

o               The Middle East & Africa (By End User)

Table of Contents

1. Introduction
1.1. Research Scope
1.2. Market Segmentation
1.3. Research Methodology
1.4. Definitions and Assumptions
2. Executive Summary
3. Market Dynamics
3.1. Market Drivers
3.2. Market Restraints
3.3. Market Opportunities
4. Key Insights
4.1. Key Industry Developments –Mergers, Acquisitions and Partnerships
4.2. Latest technological Advancements
4.3. Porters Five Forces Analysis
4.4. Supply Chain Analysis
5. Qualitative Insights
5.1. Impact of COVID-19 on the Drone Power Sources Market
5.2. Steps Taken by the Industry/Government/Companies to Overcome the Impact
5.3. Potential Opportunities due to COVID-19 Outbreak
6. Global Drone Power Sources Market Analysis, Insights and Forecast, 2017-2028
6.1. Segmental Definitions
6.2. Market Analysis, Insights and Forecast – By Drone Type
6.2.1. MALE
6.2.2. HALE
6.2.3. Special Mission Drone
6.2.4. Medium and Small Drone
6.2.5. Nano Drone
6.2.6. Passenger Drone
6.3. Market Analysis, Insights and Forecast – By Power Source
6.3.1. Fuel Cells
6.3.2. Battery
6.3.2.1. Lithium-ion
6.3.2.2. Lithium-ion Polymer
6.3.2.3. Nickel Cadmium
6.3.3. Solar Cells
6.3.4. Non-Renewable
6.3.5. Hybrid
6.4. Market Analysis, Insights and Forecast – By Flight Time
6.4.1. Below 1 Hour
6.4.2. 1 Hour – 25 Hours
6.4.3. 25 Hours – 50 Hours
6.4.4. More than 50 Hours
6.5. Market Analysis, Insights and Forecast – By Point of Sale
6.5.1. OEM
6.5.2. Aftermarket
6.6. Market Analysis, Insights and Forecast – By End User
6.6.1. Commercial
6.6.2. Military
6.7. Market Analysis, Insights and Forecast – By Region
6.7.1. North America
6.7.2. Europe
6.7.3. Asia-Pacific
6.7.4. Rest of the world
7. North America Drone Power Sources Market Analysis, Insights and Forecast, 2017-2028
7.1. Segmental Definitions
7.2. Market Analysis, Insights and Forecast – By Drone Type
7.2.1. MALE
7.2.2. HALE
7.2.3. Special Mission Drone
7.2.4. Medium and Small Drone
7.2.5. Nano Drone
7.2.6. Passenger Drone
7.3. Market Analysis, Insights and Forecast – By Power Source
7.3.1. Fuel Cells
7.3.2. Battery
7.3.2.1. Lithium-ion
7.3.2.2. Lithium-ion Polymer
7.3.2.3. Nickel Cadmium
7.3.3. Solar Cells
7.3.4. Non-Renewable
7.3.5. Hybrid
7.4. Market Analysis, Insights and Forecast – By Flight Time
7.4.1. Below 1 Hour
7.4.2. 1 Hour – 25 Hours
7.4.3. 25 Hours – 50 Hours
7.4.4. More than 50 Hours
7.5. Market Analysis, Insights and Forecast – By Point of Sale
7.5.1. OEM
7.5.2. Aftermarket
7.6. Market Analysis, Insights and Forecast – By End User
7.6.1. Commercial
7.6.2. Military
7.7. Market Analysis – By Country
7.7.1. The U.S.
7.7.1.1. Market Analysis, Insights and Forecast – By End User
7.7.1.1.1. Commercial
7.7.1.1.2. Military
7.7.2. Canada
7.7.2.1. Market Analysis, Insights and Forecast – By End User
7.7.2.1.1. Commercial
7.7.2.1.2. Military
8. Europe Drone Power Sources Market Analysis, Insights and Forecast, 2017-2028
8.1. Segmental Definitions
8.2. Market Analysis, Insights and Forecast – By Drone Type
8.2.1. MALE
8.2.2. HALE
8.2.3. Special Mission Drone
8.2.4. Medium and Small Drone
8.2.5. Nano Drone
8.2.6. Passenger Drone
8.3. Market Analysis, Insights and Forecast – By Power Source
8.3.1. Fuel Cells
8.3.2. Battery
8.3.2.1. Lithium-ion
8.3.2.2. Lithium-ion Polymer
8.3.2.3. Nickel Cadmium
8.3.3. Solar Cells
8.3.4. Non-Renewable
8.3.5. Hybrid
8.4. Market Analysis, Insights and Forecast – By Flight Time
8.4.1. Below 1 Hour
8.4.2. 1 Hour – 25 Hours
8.4.3. 25 Hours – 50 Hours
8.4.4. More than 50 Hours
8.5. Market Analysis, Insights and Forecast – By Point of Sale
8.5.1. OEM
8.5.2. Aftermarket
8.6. Market Analysis, Insights and Forecast – By End User
8.6.1. Commercial
8.6.2. Military
8.7. Market Analysis – By Country
8.7.1. The U.K.
8.7.1.1. Market Analysis, Insights and Forecast – By End User
8.7.1.1.1. Commercial
8.7.1.1.2. Military
8.7.2. Germany
8.7.2.1. Market Analysis, Insights and Forecast – By End User
8.7.2.1.1. Commercial
8.7.2.1.2. Military
8.7.3. France
8.7.3.1. Market Analysis, Insights and Forecast – By End User
8.7.3.1.1. Commercial
8.7.3.1.2. Military
8.7.4. Russia
8.7.4.1. Market Analysis, Insights and Forecast – By End User
8.7.4.1.1. Commercial
8.7.4.1.2. Military
8.7.5. Rest of Europe
8.7.5.1. Market Analysis, Insights and Forecast – By End User
8.7.5.1.1. Commercial
8.7.5.1.2. Military
9. Asia-Pacific Drone Power Sources Market Analysis, Insights and Forecast, 2017-2028
9.1. Segmental Definitions
9.2. Market Analysis, Insights and Forecast – By Drone Type
9.2.1. MALE
9.2.2. HALE
9.2.3. Special Mission Drone
9.2.4. Medium and Small Drone
9.2.5. Nano Drone
9.2.6. Passenger Drone
9.3. Market Analysis, Insights and Forecast – By Power Source
9.3.1. Fuel Cells
9.3.2. Battery
9.3.2.1. Lithium-ion
9.3.2.2. Lithium-ion Polymer
9.3.2.3. Nickel Cadmium
9.3.3. Solar Cells
9.3.4. Non-Renewable
9.3.5. Hybrid
9.4. Market Analysis, Insights and Forecast – By Flight Time
9.4.1. Below 1 Hour
9.4.2. 1 Hour – 25 Hours
9.4.3. 25 Hours – 50 Hours
9.4.4. More than 50 Hours
9.5. Market Analysis, Insights and Forecast – By Point of Sale
9.5.1. OEM
9.5.2. Aftermarket
9.6. Market Analysis, Insights and Forecast – By End User
9.6.1. Commercial
9.6.2. Military
9.7. Market Analysis – By Country
9.7.1. Japan
9.7.1.1. Market Analysis, Insights and Forecast – By End User
9.7.1.1.1. Commercial
9.7.1.1.2. Military
9.7.2. China
9.7.2.1. Market Analysis, Insights and Forecast – By End User
9.7.2.1.1. Commercial
9.7.2.1.2. Military
9.7.3. India
9.7.3.1. Market Analysis, Insights and Forecast – By End User
9.7.3.1.1. Commercial
9.7.3.1.2. Military
9.7.4. Rest of Asia Pacific
9.7.4.1. Market Analysis, Insights and Forecast – By End User
9.7.4.1.1. Commercial
9.7.4.1.2. Military
10. Rest of the World Drone Power Sources Market Analysis, Insights and Forecast, 2017-2028
10.1. Segmental Definitions
10.2. Market Analysis, Insights and Forecast – By Drone Type
10.2.1. MALE
10.2.2. HALE
10.2.3. Special Mission Drone
10.2.4. Medium and Small Drone
10.2.5. Nano Drone
10.2.6. Passenger Drone
10.3. Market Analysis, Insights and Forecast – By Power Source
10.3.1. Fuel Cells
10.3.2. Battery
10.3.2.1. Lithium-ion
10.3.2.2. Lithium-ion Polymer
10.3.2.3. Nickel Cadmium
10.3.3. Solar Cells
10.3.4. Non-Renewable
10.3.5. Hybrid
10.4. Market Analysis, Insights and Forecast – By Flight Time
10.4.1. Below 1 Hour
10.4.2. 1 Hour – 25 Hours
10.4.3. 25 Hours – 50 Hours
10.4.4. More than 50 Hours
10.5. Market Analysis, Insights and Forecast – By Point of Sale
10.5.1. OEM
10.5.2. Aftermarket
10.6. Market Analysis, Insights and Forecast – By End User
10.6.1. Commercial
10.6.2. Military
10.7. Market Analysis – By Sub-Region
10.7.1. Latin America
10.7.1.1. Market Analysis, Insights and Forecast – By End User
10.7.1.1.1. Commercial
10.7.1.1.2. Military
10.7.2. The Middle East & Africa
10.7.2.1. Market Analysis, Insights and Forecast – By End User
10.7.2.1.1. Commercial
10.7.2.1.2. Military
11. Competitive Analysis
11.1. Global Market Share Analysis (2020), By Manufacturers
11.2. Competition Dashboard
11.3. Company Profiles (Overview, Drone Types, SWOT analysis, Recent developments, strategies, financials (based on availability))
11.3.1. Skydio, Inc. (The U.S.)
11.3.1.1. Overview,
11.3.1.2. Drone Types,
11.3.1.3. SWOT analysis,
11.3.1.4. Recent developments,
11.3.1.5. strategies,
11.3.1.6. financials (based on availability)
11.3.2. SZ DJI Technology Co., Ltd. (China)
11.3.2.1. Overview,
11.3.2.2. Drone Types,
11.3.2.3. SWOT analysis,
11.3.2.4. Recent developments,
11.3.2.5. strategies,
11.3.2.6. financials (based on availability)
11.3.3. HES Energy Systems (Singapore)
11.3.3.1. Overview,
11.3.3.2. Drone Types,
11.3.3.3. SWOT analysis,
11.3.3.4. Recent developments,
11.3.3.5. strategies,
11.3.3.6. financials (based on availability)
11.3.4. Sion Power Corporation (The U.S.)
11.3.4.1. Overview,
11.3.4.2. Drone Types,
11.3.4.3. SWOT analysis,
11.3.4.4. Recent developments,
11.3.4.5. strategies,
11.3.4.6. financials (based on availability)
11.3.5. Honeywell International Inc. (The U.S.)
11.3.5.1. Overview,
11.3.5.2. Drone Types,
11.3.5.3. SWOT analysis,
11.3.5.4. Recent developments,
11.3.5.5. strategies,
11.3.5.6. financials (based on availability)
11.3.6. Hylium Industries, Inc. (South Korea)
11.3.6.1. Overview,
11.3.6.2. Drone Types,
11.3.6.3. SWOT analysis,
11.3.6.4. Recent developments,
11.3.6.5. strategies,
11.3.6.6. financials (based on availability)
11.3.7. Sky Power GmbH (Germany)
11.3.7.1. Overview,
11.3.7.2. Drone Types,
11.3.7.3. SWOT analysis,
11.3.7.4. Recent developments,
11.3.7.5. strategies,
11.3.7.6. financials (based on availability)
11.3.8. MicroMultiCopter Aero Technology Co. Ltd. (China)
11.3.8.1. Overview,
11.3.8.2. Drone Types,
11.3.8.3. SWOT analysis,
11.3.8.4. Recent developments,
11.3.8.5. strategies,
11.3.8.6. financials (based on availability)
11.3.9. Intelligent Energy Limited (The U.K.)
11.3.9.1. Overview,
11.3.9.2. Drone Types,
11.3.9.3. SWOT analysis,
11.3.9.4. Recent developments,
11.3.9.5. strategies,
11.3.9.6. financials (based on availability)
11.3.10. Pegasus Aeronautics (Canada)
11.3.10.1. Overview,
11.3.10.2. Drone Types,
11.3.10.3. SWOT analysis,
11.3.10.4. Recent developments,
11.3.10.5. strategies,
11.3.10.6. financials (based on availability)
11.3.11. UAV Engines LTD (The U.K.)
11.3.11.1. Overview,
11.3.11.2. Drone Types,
11.3.11.3. SWOT analysis,
11.3.11.4. Recent developments,
11.3.11.5. strategies,
11.3.11.6. financials (based on availability)
11.3.12. PBS INDIA PRIVATE LIMITED (India)
11.3.12.1. Overview,
11.3.12.2. Drone Types,
11.3.12.3. SWOT analysis,
11.3.12.4. Recent developments,
11.3.12.5. strategies,
11.3.12.6. financials (based on availability)
11.3.13. UAV Factory (The U.S.)
11.3.13.1. Overview,
11.3.13.2. Drone Types,
11.3.13.3. SWOT analysis,
11.3.13.4. Recent developments,
11.3.13.5. strategies,
11.3.13.6. financials (based on availability)
11.3.14. Northwest UAV, Inc. (The U.S.)
11.3.14.1. Overview,
11.3.14.2. Drone Types,
11.3.14.3. SWOT analysis,
11.3.14.4. Recent developments,
11.3.14.5. strategies,
11.3.14.6. financials (based on availability)
11.3.15. Denchi Power Limited (U.K)
11.3.15.1. Overview,
11.3.15.2. Drone Types,
11.3.15.3. SWOT analysis,
11.3.15.4. Recent developments,
11.3.15.5. strategies,
11.3.15.6. financials (based on availability)
11.3.16. EaglePicher Technologies (The U.S.)
11.3.16.1. Overview,
11.3.16.2. Drone Types,
11.3.16.3. SWOT analysis,
11.3.16.4. Recent developments,
11.3.16.5. strategies,
11.3.16.6. financials (based on availability)
11.3.17. Guangzhou EHang Intelligent Technology Co. Ltd (China)
11.3.17.1. Overview,
11.3.17.2. Drone Types,
11.3.17.3. SWOT analysis,
11.3.17.4. Recent developments,
11.3.17.5. strategies,
11.3.17.6. financials (based on availability)
11.3.18. OXIS Energy Ltd (The U.K.)
11.3.18.1. Overview,
11.3.18.2. Drone Types,
11.3.18.3. SWOT analysis,
11.3.18.4. Recent developments,
11.3.18.5. strategies,
11.3.18.6. financials (based on availability)

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