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市場調査レポート
商品コード
1680164
防衛用航空プラットフォームエンジンの世界市場:2025年~2035年Global Defense Air Platforms Engines Market 2025-2035 |
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防衛用航空プラットフォームエンジンの世界市場:2025年~2035年 |
出版日: 2025年03月14日
発行: Aviation & Defense Market Reports (A&D)
ページ情報: 英文 150+ Pages
納期: 3営業日
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世界の防衛用航空プラットフォームエンジンの市場規模は、2025年に147億5,000万米ドル、2035年までに247億5,000万米ドルに成長すると予測され、予測期間の2025年~2035年の年間平均成長率(CAGR)は5.31%になるとみられています。
世界の防衛用航空プラットフォームエンジン市場は、戦闘機、爆撃機、輸送機、ヘリコプター、無人航空機(UAV)など、軍用機の動力源となる高性能推進システムへの需要の高まりによって、防衛航空宇宙産業の中でも重要な分野となっています。制空権が現代戦の決定的な要因であり続ける中、各国は速度、燃料効率、耐久性、ステルス能力を高めるため、高度な推進技術への投資を続けています。軍用機のエンジンは、過酷な条件下での運用能力、高い操縦性の維持、長距離任務の支援など、厳しい性能要件を満たす必要があります。この市場の特徴は、推力重量比の改善、信頼性の向上、メンテナンスコストの削減を目指した継続的な研究開発(R&D)にあります。世界の防衛近代化計画、地政学的ダイナミクスの変化、新たな脅威が次世代推進システムへの投資を促進しており、この市場は世界中の防衛請負業者や軍事組織にとって重要な重点分野となっています。
技術は、防衛用航空プラットフォームエンジン市場の形成において変革的な役割を果たしており、材料、製造技術、デジタル統合における革新がエンジン性能を大幅に向上させています。最も注目すべき進歩のひとつは、適応サイクルエンジンの導入です。適応サイクルエンジンは、ミッション要件に基づいて気流を動的に調整することにより、燃料効率の改善と推力の向上を実現します。米国のアダプティブ・エンジン・トランジション・プログラム(AETP)で開発されているようなこれらのエンジンは、優れた運用柔軟性を提供し、航空機が省燃費モードと高性能モードをシームレスに切り替えることを可能にします。推進技術におけるもう一つのブレークスルーは、セラミックマトリックス複合材料(CMC)の統合です。セラミックマトリックス複合材料は耐熱性を高め、エンジン重量を軽減し、効率と耐久性の向上につながります。一般に3Dプリンティングとして知られる積層造形は、材料の無駄を減らし、リードタイムを短縮して複雑な部品を迅速に製造できるようにすることで、エンジン製造に革命をもたらしています。デジタルツイン(物理的なエンジンの仮想レプリカ)の使用は、予知保全とリアルタイムの性能監視を可能にし、ダウンタイムを最小限に抑え、フリートの即応性を最適化します。さらに、ハイブリッド電気と水素を動力源とする推進システムの進歩が、長期的な持続可能性への取り組みの一環として検討されているが、これらの技術は軍事用途としてはまだ初期段階にあります。
いくつかの主要促進要因が防衛用航空プラットフォームエンジン市場の成長を後押ししています。主な要因の1つは、世界中で軍用機の調達とアップグレードが増加していることです。多くの国が、老朽化した航空機を、優れた性能を発揮できる次世代エンジンを必要とする最新のプラットフォームに置き換えています。F-35ライトニングII、テンペスト、次世代制空権(NGAD)プログラムなどの第5・6世代戦闘機へのシフトは、より強力で燃費効率の高いエンジンへの需要を煽っています。もう一つの大きな推進力は、ステルス性とサバイバビリティの重視の高まりです。現代の空中戦ではレーダー回避能力が極めて重要になるため、エンジンメーカーは航空機のステルス性を高めるため、赤外線シグネチャと騒音レベルの低減に注力しています。また、防衛活動におけるUAVの台頭も市場機会を拡大しており、軍は、長時間の偵察や攻撃任務を可能にする高耐久性エンジンを求めています。さらに、共同防衛計画や多国間協力の頻度が増加しているため、同盟国がリソースを出し合って技術的進歩とコスト分担イニシアチブを加速させており、エンジン開発の革新が促進されています。
中東では、軍の近代化努力と最新鋭戦闘機の調達増が防衛用航空プラットフォームエンジンの需要を牽引しています。サウジアラビアやアラブ首長国連邦などの湾岸協力会議(GCC)諸国は、航空防衛システムを強化するため、新世代の航空機とメンテナンス能力に投資しています。これらの国々は、F-15、F-16、F-35といった欧米製の航空機を頻繁に調達しており、これらの航空機は米国や欧州の大手メーカーが供給するエンジンに依存しています。この地域の厳しい気候条件は、極端な気温や砂の多い環境での運用信頼性を確保するために、特殊なエンジンの適合も必要とします。さらに、欧米の防衛関連企業との提携により、技術移転と現地でのメンテナンス能力が促進され、地域の防衛航空宇宙セクターが強化されています。
アフリカの防衛用航空プラットフォーム・エンジン市場は、他の地域と比べると比較的小さいですが、各国が空軍の近代化を目指しているため、徐々に拡大しています。アフリカ諸国の多くは、エンジンのアップグレードや交換を必要とするレガシー航空機を運用しており、整備・修理・オーバーホール(MRO)サービスの機会を生み出しています。アルジェリア、エジプト、南アフリカなどの国々は、この地域の主要な防衛航空参入国の1つであり、欧米製とロシア製の航空機の両方に投資しています。さらに、対テロ作戦や国境警備への懸念の高まりが、軍用輸送機やヘリコプターのエンジン需要を促進しており、地域の安全保障努力を支えています。
当レポートでは、世界の防衛用航空プラットフォームエンジン市場について調査し、10年間のセグメント別市場予測、技術動向、機会分析、企業プロファイル、49カ国の国別データなどをまとめています。
The Global Defense Air Platforms Engines market is estimated at USD 14.75 billion in 2025, projected to grow to USD 24.75 billion by 2035 at a Compound Annual Growth Rate (CAGR) of 5.31% over the forecast period 2025-2035.
The global defense air platforms engines market is a critical sector within the defense aerospace industry, driven by the increasing demand for high-performance propulsion systems to power military aircraft, including fighter jets, bombers, transport planes, helicopters, and unmanned aerial vehicles (UAVs). As air superiority remains a decisive factor in modern warfare, nations continue to invest in advanced propulsion technologies to enhance speed, fuel efficiency, durability, and stealth capabilities. Military aircraft engines must meet stringent performance requirements, including the ability to operate in extreme conditions, sustain high maneuverability, and support long-range missions. The market is characterized by continuous research and development (R&D) efforts aimed at improving thrust-to-weight ratios, increasing reliability, and reducing maintenance costs. Global defense modernization programs, shifting geopolitical dynamics, and emerging threats are driving investments in next-generation propulsion systems, making this market a key area of focus for defense contractors and military organizations worldwide.
Technology plays a transformative role in shaping the defense air platforms engines market, with innovations in materials, manufacturing techniques, and digital integration significantly enhancing engine performance. One of the most notable advancements is the incorporation of adaptive cycle engines, which offer improved fuel efficiency and greater thrust by dynamically adjusting airflow based on mission requirements. These engines, such as those being developed under the U.S. Adaptive Engine Transition Program (AETP), provide superior operational flexibility, allowing aircraft to switch between fuel-saving and high-performance modes seamlessly. Another breakthrough in propulsion technology is the integration of ceramic matrix composites (CMCs), which enhance heat resistance and reduce engine weight, leading to improved efficiency and durability. Additive manufacturing, commonly known as 3D printing, is revolutionizing engine production by enabling the rapid fabrication of complex components with reduced material waste and shorter lead times. The use of digital twins-virtual replicas of physical engines-allows for predictive maintenance and real-time performance monitoring, minimizing downtime and optimizing fleet readiness. Additionally, advancements in hybrid-electric and hydrogen-powered propulsion systems are being explored as part of long-term sustainability efforts, although these technologies are still in their early stages for military applications.
Several key drivers are propelling growth in the defense air platforms engines market. One of the primary factors is the increasing procurement and upgrade of military aircraft fleets worldwide. Many nations are replacing aging aircraft with modern platforms that require next-generation engines capable of delivering superior performance. The shift towards fifth- and sixth-generation fighter jets, such as the F-35 Lightning II, the Tempest, and the Next Generation Air Dominance (NGAD) program, is fueling demand for more powerful and fuel-efficient engines. Another major driver is the growing emphasis on stealth and survivability. As radar-evading capabilities become crucial in modern aerial warfare, engine manufacturers are focusing on reducing infrared signatures and noise levels to enhance aircraft stealth. The rise of UAVs in defense operations is also expanding market opportunities, with militaries seeking high-endurance engines that enable extended surveillance and strike missions. Furthermore, the increasing frequency of joint defense programs and multinational collaborations is fostering innovation in engine development, as allied nations pool resources to accelerate technological advancements and cost-sharing initiatives.
In the Middle East, defense air platform engine demand is driven by military modernization efforts and increased procurement of advanced fighter jets. Gulf Cooperation Council (GCC) nations, including Saudi Arabia and the United Arab Emirates, are investing in new-generation aircraft and maintenance capabilities to enhance their aerial defense systems. These countries frequently procure Western-made aircraft, such as the F-15, F-16, and F-35, which rely on engines supplied by leading U.S. and European manufacturers. The region's harsh climatic conditions also necessitate specialized engine adaptations to ensure operational reliability in extreme temperatures and sand-laden environments. Additionally, partnerships with Western defense companies are facilitating technology transfers and local maintenance capabilities, strengthening the regional defense aerospace sector.
Africa's defense air platforms engines market is relatively smaller compared to other regions but is gradually expanding as nations seek to modernize their air forces. Many African countries operate legacy aircraft that require engine upgrades or replacements, creating opportunities for maintenance, repair, and overhaul (MRO) services. Nations such as Algeria, Egypt, and South Africa are among the leading defense aviation players in the region, investing in both Western and Russian-built aircraft. Additionally, increased counterterrorism operations and border security concerns are driving demand for military transport aircraft and helicopter engines, supporting regional security efforts.
In a significant boost to the Aatmanirbhar Bharat initiative, the Ministry of Defence (MoD) has signed a contract with Hindustan Aeronautics Limited (HAL) for the procurement of 240 AL-31FP aero engines for the Su-30MKI aircraft, valued at over Rs 26,000 crore. The agreement was formalized in New Delhi on September 9, 2024, in the presence of Defence Secretary Shri Giridhar Aramane, Secretary (Defence Production) Shri Sanjeev Kumar, and Chief of the Air Staff Air Chief Marshal VR Chaudhari. The engines will be produced at HAL's Koraput Division and will play a crucial role in maintaining the Indian Air Force's Su-30 fleet, ensuring sustained operational capability for national defense. Under the contractual schedule, HAL will supply 30 engines annually, with all 240 engines expected to be delivered over the next eight years.
In a major advancement for defense aviation, GE Aerospace has signed a five-year Performance-Based Logistics (PBL) contract with the Indian Air Force (IAF) to provide sustainment solutions for the T700-GE-701D engines powering the IAF's AH-64E-I Apache helicopters. This agreement strengthens the long-standing partnership between GE Aerospace and the IAF, highlighting the critical role of reliable maintenance and operational readiness for key defense assets.As part of the contract, GE Aerospace will manage the Maintenance, Repair, and Overhaul (MRO) of the T700 engines while also supplying flight line parts to ensure consistent engine availability. The PBL framework aims to streamline sustainment operations, minimize turnaround times, and improve the overall efficiency of the Apache helicopter fleet. By adopting a more integrated and performance-driven logistics approach, this collaboration ensures that the IAF's Apache helicopters remain mission-ready and fully operational.
Defense Air Platforms Engines Market Report Definition
Defense Air Platforms Engines Market Segmentation
By Region
By Application
By End User
Defense Air Platforms Engines Market Analysis for next 10 Years
The 10-year defense air platforms engines market analysis would give a detailed overview of defense air platforms engines market growth, changing dynamics, technology adoption overviews and the overall market attractiveness is covered in this chapter.
Market Technologies of Defense Air Platforms Engines Market
This segment covers the top 10 technologies that is expected to impact this market and the possible implications these technologies would have on the overall market.
Global Defense Air Platforms Engines Market Forecast
The 10-year defense air platforms engines market forecast of this market is covered in detailed across the segments which are mentioned above.
Regional Defense Air Platforms Engines Market Trends & Forecast
The regional defense air platforms engines market trends, drivers, restraints and Challenges of this market, the Political, Economic, Social and Technology aspects are covered in this segment. The market forecast and scenario analysis across regions are also covered in detailed in this segment. The last part of the regional analysis includes profiling of the key companies, supplier landscape and company benchmarking. The current market size is estimated based on the normal scenario.
North America
Drivers, Restraints and Challenges
REST
Key Companies
Supplier Tier Landscape
Company Benchmarking
Market Forecast & Scenario Analysis
Europe
Middle East
APAC
South America
Country Analysis of Defense Air Platforms Engines Market
This chapter deals with the key programs in this market, it also covers the latest news and patents which have been filed in this market. Country level 10 year market forecast and scenario analysis are also covered in this chapter.
US
Program Mapping
Latest News
Patents
Current levels of technology maturation in this market
Market Forecast & Scenario Analysis
Canada
Italy
France
Germany
Netherlands
Belgium
Spain
Sweden
Greece
Australia
South Africa
India
China
Russia
South Korea
Japan
Malaysia
Singapore
Brazil
Opportunity Matrix for Defense Air Platforms Engines Market
The opportunity matrix helps the readers understand the high opportunity segments in this market.
Expert Opinions on Defense Air Platforms Engines Market Report
Hear from our experts their opinion of the possible analysis for this market.
Conclusions
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