国防飞机推进系统的全球市场 (2024～2034年)

全球国防飞机推进系统市场预计在2024年将达到127.8亿美元，并在2034年增长至144.6亿美元，在预测期内（2024-2034年）增长1.25%，预计将以复合年增长率（CAGR）成长。

全球国防飞机推进系统市场概况

国防飞机推进系统市场是指涉及军用飞机推进系统的设计、开发、生产和维护的全球产业。这些系统负责产生为各种战斗机、运输机和特殊任务飞机提供动力和操纵所需的推力。对先进、高效、环保的推进技术的需求是市场成长的主要驱动力。

科技对全球国防飞机推进市场的影响

技术进步一直是影响国防飞机推进市场的关键因素。一些主要的技术影响包括涡轮发动机的改进、电气化和混合动力、自适应循环发动机和先进的推进概念。压缩机、燃烧系统和涡轮设计的进步使涡轮引擎能够增加推力、提高燃油效率并减少排放。先进材料和积层製造技术的使用使得能够生产更耐用、更轻的引擎零件。将电动马达和发电机与传统涡轮引擎整合，形成混合电力推进系统，可提高效率、降低燃料消耗并提高机动性。一些军用飞机正在开发使用电池或燃料电池的全电力推进系统，特别是无人机（UAV）和垂直起降（VTOL）平台。自适应循环发动机的开发可以动态调节气流和涵道比，使军用飞机能够在更广泛的飞行条件和任务范围内更有效地运作。人们正在探索脉衝爆震发动机和超燃冲压发动机等新技术，以挖掘其实现更高推重比并提高超音速和高超音速性能的潜力。这些技术进步使得能够为各种军用飞机（从战斗机和轰炸机到运输机和特殊任务平台）开发出更高性能、更有效率、更环保的推进系统。

全球国防飞机推进系统市场的主要驱动因素

由于需要比以往更先进的技术的综合因素，国防飞机推进系统市场正在快速成长。关键驱动因素之一是军用飞机现代化的全球趋势。世界各国政府正在进行战略投资，以更先进的平台替换老化的飞机。这些新平台配备了最先进的推进系统，增强了国家的整体军事能力，并确保其保持领先地位。

推动市场成长的另一个因素是全球国防支出的增加。亚太、中东等地区军费开支大幅增加。这促使用于购买新飞机和升级现有推进系统的资金增加。随着各国努力维持强大的军事存在，对先进推进技术的需求不断增加。

对提高性能的需求也发挥重要作用。现代战争需要飞机具有优异的航程、速度、机动性和燃油效率。为了满足这些需求，市场扩大采用自适应循环引擎和混合动力电动系统等尖端技术。这些进步使得任务时间更长、反应时间更快并提高了战斗力。

环境因素也在塑造市场。有关排放和噪音污染的严格法规正在促使国防飞机推进产业开发环保解决方案。电动和混合动力系统正在成为可行的选择，为军用飞机提供了一条通往更环保的未来的道路。

持续的技术进步也是重要的驱动力。材料科学、空气动力学和控制系统等领域不断突破。这些进步为开发更强大、更有效率的推进系统铺平了道路，确保军用飞机始终处于技术创新的前沿。

最后，国内发展的趋势也是蓄势待发。许多国家正在优先考虑国防飞机推进系统的国内设计和生产。这种方法旨在减少对外国进口的依赖，并解决与从外部取得推进技术相关的高成本问题。透过发展自己的能力，各国有潜力实现自给自足并更好地控制军用航空的进步。

全球国防飞机推进系统市场的区域趋势

国防飞机推进系统市场按地区呈现明显的趋势。在北美，美国占据市场主导地位，普惠公司、通用电气、劳斯莱斯北美公司等主要防务公司在先进推进系统的开发和生产方面处于领先地位。加拿大也是一个着名的市场，赛峰集团和霍尼韦尔等公司为军用飞机推进技术的开发做出了贡献。

在欧洲，英国、法国和德国等国家正在合作开发未来作战空中系统的推进系统，例如 "暴风雨" 和 "FCAS" 计画。东欧国家也正在投资对其军用飞机进行现代化改造，推动了对更新推进系统的需求。

亚太地区是一个重要市场，中国、印度、日本和韩国都致力于开发自己的推进技术以应对区域安全课题。例如，印度正在为其战斗机项目开发先进的涡轮扇发动机。

在中东，沙乌地阿拉伯、阿拉伯联合大公国和以色列等国家正在大力投资购买现代军用飞机，刺激了对高性能推进系统的需求。以色列国防工业也积极开发针对独特飞机要求的推进技术。

以巴西为首的拉丁美洲也持续努力实现军用飞机现代化，包括采购先进的推进系统。

国防飞机推进的主要项目

美国空军已向 GE Aviation 授予价值 10 亿美元的合同，以进一步开发和成熟其三气流自适应循环发动机技术。该合约是自适应发动机过渡计划（AETP）的一部分，该计划是军方为提高先进战斗机平台的推进能力而进行的重大投资。

GE航空集团正在开发的三层气流自适应循环引擎是下一代推进系统，与传统涡轮引擎相比，可提高燃油效率、增加推力和更大的操作灵活性。这项技术被认为对于为美国军方未来的战斗机和其他高性能飞机提供动力至关重要。

透过授予这份价值 10 亿美元的合同，空军表明了其将这种先进发动机技术从研发阶段转向最终集成和部署到作战飞机中的承诺。这项投资为美国军方在未来几年为其最先进的作战平台配备更强大、更有效率和多功能的推进系统奠定了基础。

总部位于阿拉巴马州亨茨维尔的 Avion Solutions 已获得美国陆军一份价值 4,350 万美元的合约。根据该合同，Avion Solutions 将为陆军推进专案和系统准备局内的飞机系统提供技术支援服务。这包括支援这些关键军事系统和组件的开发、测试和维护。

本报告提供全球国防飞机推进系统市场相关分析，提供整体市场规模趋势预测，及各地区·各国详细趋势，主要技术的概要，市场机会等调查。

目录

国防飞机推进系统市场:报告定义

国防飞机推进系统市场明细

• 引擎
• 各地区
• 机种

国防飞机推进系统市场分析 (今后10年)

国防飞机推进系统市场市场科技

全球国防飞机推进系统市场预测

国防飞机推进系统市场:各地区的趋势与预测

• 北美
  • 促进·阻碍因素，课题
  • PEST分析
  • 市场预测情势分析
  • 主要企业
  • 供应商阶层的形势
  • 企业的基准
• 欧洲
• 中东
• 亚太地区
• 南美

国防飞机推进系统市场:各国分析

• 美国
  • 防卫计划
  • 最新趋势
  • 专利
  • 这个市场上目前技术成熟层级
  • 市场预测情势分析
• 加拿大
• 义大利
• 法国
• 德国
• 荷兰
• 比利时
• 西班牙
• 瑞典
• 希腊
• 澳洲
• 南非
• 印度
• 中国
• 俄罗斯
• 韩国
• 日本
• 马来西亚
• 新加坡
• 巴西

国防飞机推进系统市场:市场机会矩阵

国防飞机推进系统市场:调查相关专家的见解

结论

关于Aviation and Defense Market Reports

The global Defense Aircraft Propulsion market is estimated at USD 12.78 billion in 2024, projected to grow to USD 14.46 billion by 2034 at a Compound Annual Growth Rate (CAGR) of 1.25% over the forecast period 2024-2034

Introduction to Defense Aircraft Propulsion Market

The defense aircraft propulsion market refers to the global industry involved in the design, development, production, and maintenance of propulsion systems for military aircraft. These systems are responsible for generating the thrust required to power and maneuver various types of combat, transport, and special mission aircraft. The demand for advanced, efficient, and environmentally-friendly propulsion technologies is a key driver of market growth.

Technology Impact in Defense Aircraft Propulsion Market

Technological advancements have been a significant factor shaping the defense aircraft propulsion market. Several key technological impacts include turbine engine improvements, electrification and hybridization, adaptive cycle engines, and advanced propulsion concepts. Advancements in compressor, combustion, and turbine designs have led to increased thrust, improved fuel efficiency, and reduced emissions for turbine engines. The adoption of advanced materials and additive manufacturing techniques has enabled the production of more durable and lightweight engine components. The integration of electric motors and generators with traditional turbine engines is creating hybrid-electric propulsion systems that offer improved efficiency, reduced fuel consumption, and enhanced maneuverability. All-electric propulsion systems, utilizing batteries and fuel cells, are being developed for certain military aircraft applications, particularly for unmanned aerial vehicles (UAVs) and vertical take-off and landing (VTOL) platforms. The development of adaptive cycle engines, which can dynamically adjust their airflow and bypass ratios, is enabling military aircraft to operate efficiently across a wider range of flight conditions and mission profiles. Emerging technologies, such as pulse detonation engines and scramjets, are being explored for their potential to provide higher thrust-to-weight ratios and improved performance at supersonic and hypersonic speeds. These technological advancements are enabling the development of more capable, efficient, and environmentally-friendly propulsion systems for a wide range of military aircraft, from fighters and bombers to transport and special mission platforms.

Key Drivers in Defense Aircraft Propulsion Market

The defense aircraft propulsion market is soaring, driven by a confluence of factors that necessitate ever-more advanced technologies. One key driver is the global trend of military fleet modernization. Governments around the world are strategically investing in replacing their aging aircraft with more advanced platforms. These new platforms, equipped with cutting-edge propulsion systems, enhance a nation's overall military capabilities and ensure they stay ahead of the curve.

Another factor propelling market growth is the rise in global defense spending. Regions like Asia-Pacific and the Middle East are witnessing significant increases in military expenditures. This translates to increased funding for new aircraft procurement and upgrades to existing propulsion systems. As nations strive to maintain a strong military presence, the demand for advanced propulsion technology intensifies.

The demand for improved performance also plays a crucial role. Modern warfare necessitates aircraft with superior range, speed, maneuverability, and fuel efficiency. To meet these demands, the market is witnessing the adoption of cutting-edge technologies like adaptive cycle engines and hybrid-electric systems. These advancements allow for longer missions, faster response times, and improved combat effectiveness.

Environmental considerations are also shaping the market. Stricter regulations on emissions and noise pollution are pushing the defense aircraft propulsion industry to develop greener solutions. Electric and hybrid-electric systems are emerging as viable options, offering a path towards a more environmentally friendly future for military aviation.

Continuous advancements in technology are another key driver. Fields like materials science, aerodynamics, and control systems are experiencing constant breakthroughs. These advancements pave the way for the development of ever-more capable and efficient propulsion systems, ensuring that military aircraft remain at the forefront of technological innovation.

Finally, the trend of indigenous development is gaining momentum. Many countries are prioritizing the domestic design and production of defense aircraft propulsion systems. This approach aims to reduce reliance on foreign imports and address the high costs associated with acquiring propulsion technology from external sources. By developing their own capabilities, nations can potentially achieve self-sufficiency and greater control over their military aviation advancements.

Regional Trends in Defense Aircraft Propulsion Market

The defense aircraft propulsion market exhibits distinct regional trends. In North America, the United States dominates the market, with major defense contractors like Pratt & Whitney, General Electric, and Rolls-Royce North America leading the development and production of advanced propulsion systems. Canada is also a notable player, with companies like Safran and Honeywell contributing to the development of propulsion technologies for military aircraft.

In Europe, countries like the United Kingdom, France, and Germany are collaborating on the development of propulsion systems for their future combat air systems, such as the Tempest and FCAS programs. Eastern European nations are also investing in the modernization of their military aircraft fleets, driving the demand for upgraded propulsion systems.

The Asia-Pacific region is a key market, with China, India, Japan, and South Korea focusing on the indigenous development of propulsion technologies to address regional security challenges. For example, India is working on the development of advanced turbofan engines for its indigenous fighter aircraft program.

In the Middle East, countries like Saudi Arabia, the United Arab Emirates, and Israel are investing heavily in the acquisition of modern military aircraft, fueling the demand for high-performance propulsion systems. Israel's defense industry is also actively involved in the development of specialized propulsion technologies for its unique aircraft requirements.

Latin America, with Brazil as a notable market, is also seeing ongoing efforts to modernize its military aircraft fleet, including the procurement of advanced propulsion systems.

Key Aircraft Propulsion Program

The U.S. Air Force has awarded a $1 billion contract to GE Aviation to further develop and mature its three-stream adaptive cycle engine technology. This contract, part of the Adaptive Engine Transition Program (AETP), represents a significant investment by the military to advance propulsion capabilities for its most advanced combat aircraft platforms.

The three-stream adaptive cycle engine being developed by GE Aviation is a next-generation propulsion system that offers improved fuel efficiency, increased thrust, and enhanced operational flexibility compared to traditional turbine engines. This technology is seen as crucial for powering the U.S. military's future fighter jets and other high-performance aircraft.

By awarding this substantial $1 billion contract, the Air Force is demonstrating its commitment to transitioning this advanced engine technology from the research and development phase towards eventual integration and deployment on operational aircraft. This investment lays the groundwork for the U.S. military to field more capable, efficient, and versatile propulsion systems on its most advanced combat platforms in the years to come.

Avion Solutions, a company based in Huntsville, Alabama, has been awarded a $43.5 million contract by the U.S. Army. Under this contract, Avion Solutions will provide technical support services for the Army's Propulsion Project and Aircraft Systems within the Systems Readiness Directorate.The contract will see Avion Solutions assisting the Army with various technical tasks and expertise related to propulsion systems and aircraft platforms. This includes supporting the development, testing, and maintenance of these critical military systems and components.

Table of Contents

Defense Aircraft Propulsion Market Report Definition

Defense Aircraft Propulsion Market Segmentation

By Engine

By Region

By Aircraft Type

Defense Aircraft Propulsion Market Analysis for next 10 Years

The 10-year defense aircraft propulsion market analysis would give a detailed overview of defense aircraft propulsion market growth, changing dynamics, technology adoption overviews and the overall market attractiveness is covered in this chapter.

Market Technologies of Defense Aircraft Propulsion 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 Aircraft Propulsion Market Forecast

The 10-year defense aircraft propulsion market forecast of this market is covered in detailed across the segments which are mentioned above.

Regional Defense Aircraft Propulsion Market Trends & Forecast

The regional defense aircraft propulsion 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

PEST

Market Forecast & Scenario Analysis

Key Companies

Supplier Tier Landscape

Company Benchmarking

Europe

Middle East

APAC

South America

Country Analysis of Defense Aircraft Propulsion Market

This chapter deals with the key defense 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

Defense Programs

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 Aircraft Propulsion Market

The opportunity matrix helps the readers understand the high opportunity segments in this market.

Expert Opinions on Defense Aircraft Propulsion Market Report

Hear from our experts their opinion of the possible analysis for this market.

Conclusions

About Aviation and Defense Market Reports

List of Tables

• Table 1: 10 Year Market Outlook, 2024-2034

• Table 2: Drivers, Impact Analysis, North America

• Table 3: Restraints, Impact Analysis, North America

• Table 4: Challenges, Impact Analysis, North America

• Table 5: Drivers, Impact Analysis, Europe

• Table 6: Restraints, Impact Analysis, Europe

• Table 7: Challenges, Impact Analysis, Europe

• Table 8: Drivers, Impact Analysis, Middle East

• Table 9: Restraints, Impact Analysis, Middle East

• Table 10: Challenges, Impact Analysis, Middle East

• Table 11: Drivers, Impact Analysis, APAC

• Table 12: Restraints, Impact Analysis, APAC

• Table 13: Challenges, Impact Analysis, APAC

• Table 14: Drivers, Impact Analysis, South America

• Table 15: Restraints, Impact Analysis, South America

• Table 16: Challenges, Impact Analysis, South America

• Table 17: Scenario Analysis, Scenario 1, By Region, 2024-2034

• Table 18: Scenario Analysis, Scenario 1, By Engine, 2024-2034

• Table 19: Scenario Analysis, Scenario 1, By Aircraft Type, 2024-2034

• Table 20: Scenario Analysis, Scenario 2, By Region, 2024-2034

• Table 21: Scenario Analysis, Scenario 2, By Engine, 2024-2034

• Table 22: Scenario Analysis, Scenario 2, By Aircraft Type, 2024-2034

List of Figures

• Figure 1: Global Defense Aircraft Propulsion Market Forecast, 2024-2034

• Figure 2: Global Defense Aircraft Propulsion Market Forecast, By Region, 2024-2034

• Figure 3: Global Defense Aircraft Propulsion Market Forecast, By Engine, 2024-2034

• Figure 4: Global Defense Aircraft Propulsion Market Forecast, By Aircraft Type, 2024-2034

• Figure 5: North America, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 6: Europe, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 7: Middle East, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 8: APAC, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 9: South America, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 10: United States, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 11: United States, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 12: Canada, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 13: Canada, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 14: Italy, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 15: Italy, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 16: France, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 17: France, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 18: Germany, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 19: Germany, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 20: Netherlands, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 21: Netherlands, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 22: Belgium, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 23: Belgium, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 24: Spain, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 25: Spain, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 26: Sweden, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 27: Sweden, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 28: Brazil, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 29: Brazil, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 30: Australia, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 31: Australia, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 32: India, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 33: India, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 34: China, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 35: China, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 36: Saudi Arabia, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 37: Saudi Arabia, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 38: South Korea, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 39: South Korea, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 40: Japan, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 41: Japan, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 42: Malaysia, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 43: Malaysia, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 44: Singapore, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 45: Singapore, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 46: United Kingdom, Defense Aircraft Propulsion Market, Technology Maturation, 2024-2034

• Figure 47: United Kingdom, Defense Aircraft Propulsion Market, Market Forecast, 2024-2034

• Figure 48: Opportunity Analysis, Defense Aircraft Propulsion Market, By Region (Cumulative Market), 2024-2034

• Figure 49: Opportunity Analysis, Defense Aircraft Propulsion Market, By Region (CAGR), 2024-2034

• Figure 50: Opportunity Analysis, Defense Aircraft Propulsion Market, By Engine (Cumulative Market), 2024-2034

• Figure 51: Opportunity Analysis, Defense Aircraft Propulsion Market, By Engine (CAGR), 2024-2034

• Figure 52: Opportunity Analysis, Defense Aircraft Propulsion Market, By Aircraft Type (Cumulative Market), 2024-2034

• Figure 53: Opportunity Analysis, Defense Aircraft Propulsion Market, By Aircraft Type (CAGR), 2024-2034

• Figure 54: Scenario Analysis, Defense Aircraft Propulsion Market, Cumulative Market, 2024-2034

• Figure 55: Scenario Analysis, Defense Aircraft Propulsion Market, Global Market, 2024-2034

• Figure 56: Scenario 1, Defense Aircraft Propulsion Market, Total Market, 2024-2034

• Figure 57: Scenario 1, Defense Aircraft Propulsion Market, By Region, 2024-2034

• Figure 58: Scenario 1, Defense Aircraft Propulsion Market, By Engine, 2024-2034

• Figure 59: Scenario 1, Defense Aircraft Propulsion Market, By Aircraft Type, 2024-2034

• Figure 60: Scenario 2, Defense Aircraft Propulsion Market, Total Market, 2024-2034

• Figure 61: Scenario 2, Defense Aircraft Propulsion Market, By Region, 2024-2034

• Figure 62: Scenario 2, Defense Aircraft Propulsion Market, By Engine, 2024-2034

• Figure 63: Scenario 2, Defense Aircraft Propulsion Market, By Aircraft Type, 2024-2034

• Figure 64: Company Benchmark, Defense Aircraft Propulsion Market, 2024-2034