全球國防飛機推進系統市場

1945 年德國投降揭示了戰時的重要發現和進步。 通用電氣和另一家美國發動機製造商普惠公司在惠特爾和其他英國設計師的技術中加入了德國技術。 ME 262 等早期噴氣發動機會很快消耗大量汽油。 因此，第一個挑戰是製造一種能夠用最少的燃料產生大量推力的發動機。

1948 年，普惠公司通過將兩台發動機合二為一解決了這個問題。 該發動機配備了兩個壓縮機，每個壓縮機獨立旋轉，內部壓縮機提供高壓縮以實現最佳性能。

戰鬥機發動機技術進步在 2000 年代初陷入停滯。 工程師們發現，從戰鬥機渦輪風扇設計中獲得哪怕是適度的推力或航程增加也很困難。 自適應技術允許在發動機中添加和調整第三氣流，為加速新發動機的開發提供了技術。

氫推進、開式風扇架構和混合動力電動發動機等先進技術也有望成為飛機發動機市場的主要新技術之一。 替代技術的發展不僅限於UAM（城市空中交通）和其他商用飛機等民用應用，軍用飛機始終對更多電氣化有很大需求。 電力推進對飛機設計的影響可能比之前預期的更為積極。 雖然用電動機 (EM) 直接替換 ICE（內燃機）可能具有簡單、可靠、噪音低和維護成本低等優點，但飛行中電力推進系統的獨特優勢可通過以下方式實現：利用 . 的集成能力。 EM 能夠在不顯著降低效率的情況下縮小規模，並且飛機內配電相對容易，這本身就是優勢。

推動國防飛機推進系統市場增長的關鍵因素：

陶瓷基複合材料 (CMC) 在一些關鍵部件中取代了金屬合金，以提供更輕的重量和更高的耐熱性。 增材製造（也稱為 3D 打印）也正在幫助工程師釋放設計空間。 這種自適應技術能夠在飛行過程中重新配置為更省油的模式或更高的推力模式。

影響國防飛機推進市場規模的趨勢：

飛機維護計劃和新飛機開發創造了對提供更高功率和效率的改裝和新發動機的需求。 效率的提高意味著運營靈活性的提高。 對為 HALE 和 MALEUAV 提供動力的發動機的需求也在增加，這將是未來的主要趨勢之一，因為無人機比傳統機載平台具有顯著的成本優勢。 軍用飛機正變得更加電氣化。 傳統上依靠化石燃料運行的無人系統現在將能夠切換到電力推進，以便在敵方領土上進行隱形行動。 這將提高執行 ISR 任務的無人系統的運行效率。 而且，電動機不依賴空氣，因此即使在空氣稀薄的高海拔地區也能滿負荷運轉。 電動機也可以比使用化石燃料的電動機更小。 預計這些市場趨勢將影響預測期內市場的增長。

國防飛機推進系統市場預測和動態：

不斷增長的國防支出推動了新的採購活動和利用更新的技術和功能更新現有平台的市場。 國防開支的增加將推動新飛機的採購。 歐洲和亞太地區普遍的地緣政治條件也促進了採購。 根據飛機推進市場分析，這些地區自主和無人平台的盛行將是飛機發動機市場的主要驅動因素之一。

國防飛機推進市場最新趨勢分析：

PTC Industries Limited 和賽峰飛機發動機公司簽署了一份諒解備忘錄，以在印度的國防和民用航空航天領域建立橋樑。 PTC 製造用於各種關鍵和超關鍵應用的高質量精密金屬部件。 賽峰集團是一家法國跨國公司，設計、開發、製造和維護民用和軍用飛機發動機以及其他航空航天和國防設備。 通過這項協議，兩家公司將在多個方面確定並發展潛在的合作和夥伴關係，以滿足軍事和航空航天工業的預期需求。

Hermeus 已經完成了新發動機設計的關鍵測試，使其距離開發可重複使用的高超音速飛機又近了一步。 該公司的發動機被稱為“Chimera”，在印第安納州聖母院渦輪機械實驗室進行了一系列測試，其功率在渦輪噴氣發動機和沖壓發動機之間有所不同。 這被認為是私人公司第一次做出這樣的改變。 Hermeus 經過 3 個月的測試，完成了從渦輪噴氣發動機到沖壓發動機的許多改變。 審判於本週早些時候結束。

土耳其國防公司 Baykar 宣布完成其噴氣式無人作戰飛行器 (UCAV) 的首次飛行。 該公司的前身 Bayraktar TB2 無人機在世界大戰中表現突出，使 Baykar 成為國際關注的焦點，並將其轉變為一家重要的製造和出口公司。 兩年前，Baykar 的激光制導穿甲彈幫助□□抵禦了阿聯酋支持的軍隊在敘利亞、烏克蘭和利比亞的進攻，之後國際社會對 Baykar 螺旋槳動力無人機的需求激增。

內容

國防飛機推進系統市場：報告定義

國防飛機推進系統市場細分

• 通過引擎
• 按地區
• 按飛機類型

國防飛機推進市場分析（未來10年）

國防飛機推進市場的市場技術

全球國防飛機推進系統市場預測

國防飛機推進系統市場趨勢和預測：按地區

• 北美
  • 促進因素/抑制因素/挑戰
  • PEST分析
  • 市場預測和情景分析
  • 主要公司
  • 供應商層次結構
  • 公司基準
• 歐洲
• 中東
• 亞太地區
• 南美洲

國防飛機推進市場分析：按國家/地區

• 美國
  • 防禦計劃
  • 最新消息
  • 專利
  • 該市場當前的技術成熟度水平
  • 市場預測和情景分析
• 加拿大
• 意大利
• 法國
• 德國
• 荷蘭
• 比利時
• 西班牙
• 瑞典
• 希臘
• 澳大利亞
• 南非
• 印度
• 中國
• 俄羅斯
• 韓國
• 日本
• 馬來西亞
• 新加坡
• 巴西

國防飛機推進市場機會矩陣

國防飛機推進市場分析：專家意見

結論

關於航空和國防市場報告

Germany's surrender in 1945 revealed significant wartime discoveries and advancements. General Electric and another American engine producer, Pratt & Whitney, contributed German teachings to those of Whittle and other British designers. Early jet engines, such as the ME 262, drank gasoline quickly. As a result, an initial challenge was posed construct an engine that could generate great thrust while using minimal fuel.

In 1948, Pratt & Whitney solved this problem by integrating two engines into one. The engine included two compressors, each of which rotated independently, with the inner one providing high compression for optimal performance.

The advancement of fighter engine technology stagnated in the early 2000s. Engineers found it difficult to extract even minor gains in thrust or range out of fighter turbofan designs. Adaptive technology, which adds a third stream of airflow to the engine and allows it to be adjusted, provided a technique to accelerate the development of new engines.

Advanced technologies such as Hydrogen propulsion, open fan architecture, hybrid electric engines will also be one of the key upcoming technologies of the aircraft engines market. Alternative technology development is not restricted to civilian applications such as Urban Air Mobility or other commercial aircraft; military aircraft have always had a significant demand for more electrification. The impact of electric propulsion on airplane design may be more positive than previously anticipated. While directly replacing ICEs with electric motors may provide benefits like as simplicity, reliability, reduced noise, and lower maintenance costs, considerably greater benefits may be realized by leveraging the unique integration capabilities of electric-propulsion systems within the airframe. The ability of the EMs to be scaled down without considerable loss of efficiency, as well as the relative ease of distribution of electric power within the aircraft, is an advantage in and of itself.

Major factors driving Defense Aircraft Propulsion Market Growth:

Ceramic matrix composites (CMCs) replace metal alloys in some key components, providing lighter weight higher temperature capacity This allows the engines to operate at higher temperatures and hence more effectively, without sacrificing durability. Additive manufacturing, often known as 3D printing, has also helped engineers unleash the design space. The adaptive technology permitted the ability to reconfigure, in flight, toward either a more fuel-efficient mode or a high-thrust mode.

Trends influencing the Defense Aircraft-Propulsion Market Size:

Aircraft sustainment programs and development of new aircrafts is creating demand for upgraded engines and new engines that offer more power and more efficiency. More efficiency translates into more operational flexibility. There is also increasing demand for engines to power HALE and MALE UAVs, this will be one the key trends going forwards due to the significant cost benefits UAVs offer over traditional aerial platforms. The trend in the military is towards more electric aircraft. Unmanned systems that traditionally run on fossil fuel will be able to switch to electric propulsion for stealthier operation in hostile territory. This enables better operational effectiveness of unmanned systems engaged in ISR missions. Electric motors are also not dependent on air, they can operate at full potential even at high altitudes where the air is thin. Electric motors can also be smaller than their fossil fuelled counterparts. These market trends will influence the growth of the market during the forecast period.

Defense Aircraft-Propulsion Market Forecast & Dynamics:

Increasing defense spending will drive the market for new procurement activities and upgrades to existing platforms with newer technologies and capabilities. The increase in defense spending will encourage procurement of new aircrafts. Procurement will also be driven by prevailing geo political conditions in Europe and the Asia Pacific. Proliferation of autonomous and unmanned platforms in these regions will be one of the key drivers of the aircraft engines market as per aircraft propulsion market analysis.

Defense Aircraft Propulsion Market Analysis for Recent Developments:

PTC Industries Limited and Safran Aircraft Engines signed a Memorandum of Understanding (MoU) to bridge the defense and civil aerospace sectors in India. PTC produces high-quality, precision metal components for a wide range of critical and super-critical applications. Safran is a French multinational corporation that designs, develops, manufactures, and maintains civil and military aircraft engines, as well as other aerospace and defense equipment. Under the terms of the agreement, the organizations will identify and develop prospects for cooperation and partnership on a variety of fronts in order to satisfy the projected needs of the military and aerospace industries.

Hermeus has completed a crucial test of a new engine design, bringing the startup one step closer to creating reusable hypersonic aircraft. The company's engine, named Chimera, shifted between turbojet and ramjet power during a series of tests at the Notre Dame Turbomachinery Laboratory in Indiana. This is thought to be the first time a commercial company has made this change. Hermeus conducted the tests over a three-month period and accomplished the change from turbojet to ramjet many times. The trials were completed earlier this week.

Baykar, a Turkish defense corporation, announced the completion of its first jet-powered unmanned aerial combat vehicle (UCAV) flight. The company's previous Bayraktar TB2 drone was notably featured in worldwide wars, propelling Baykar into the international spotlight and transforming it into a significant manufacturer and exporter. After their impact in Syria, Ukraine, and Libya, where their laser-guided armor-piercing bombs helped repel an onslaught by UAE-backed forces two years ago, international demand for Baykar's propeller-driven drones skyrocketed.

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, 2023-2033
• 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, 2023-2033
• Table 18: Scenario Analysis, Scenario 1, By Engine, 2023-2033
• Table 19: Scenario Analysis, Scenario 1, By Aircraft Type, 2023-2033
• Table 20: Scenario Analysis, Scenario 2, By Region, 2023-2033
• Table 21: Scenario Analysis, Scenario 2, By Engine, 2023-2033
• Table 22: Scenario Analysis, Scenario 2, By Aircraft Type, 2023-2033

List of Figures

• Figure 1: Global Defense Aircraft Propulsion Market Forecast, 2023-2033
• Figure 2: Global Defense Aircraft Propulsion Market Forecast, By Region, 2023-2033
• Figure 3: Global Defense Aircraft Propulsion Market Forecast, By Engine, 2023-2033
• Figure 4: Global Defense Aircraft Propulsion Market Forecast, By Aircraft Type, 2023-2033
• Figure 5: North America, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 6: Europe, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 7: Middle East, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 8: APAC, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 9: South America, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 10: United States, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 11: United States, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 12: Canada, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 13: Canada, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 14: Italy, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 15: Italy, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 16: France, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 17: France, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 18: Germany, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 19: Germany, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 20: Netherlands, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 21: Netherlands, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 22: Belgium, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 23: Belgium, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 24: Spain, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 25: Spain, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 26: Sweden, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 27: Sweden, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 28: Brazil, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 29: Brazil, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 30: Australia, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 31: Australia, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 32: India, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 33: India, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 34: China, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 35: China, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 36: Saudi Arabia, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 37: Saudi Arabia, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 38: South Korea, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 39: South Korea, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 40: Japan, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 41: Japan, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 42: Malaysia, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 43: Malaysia, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 44: Singapore, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 45: Singapore, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 46: United Kingdom, Defense Aircraft Propulsion Market, Technology Maturation, 2023-2033
• Figure 47: United Kingdom, Defense Aircraft Propulsion Market, Market Forecast, 2023-2033
• Figure 48: Opportunity Analysis, Defense Aircraft Propulsion Market, By Region (Cumulative Market), 2023-2033
• Figure 49: Opportunity Analysis, Defense Aircraft Propulsion Market, By Region (CAGR), 2023-2033
• Figure 50: Opportunity Analysis, Defense Aircraft Propulsion Market, By Engine (Cumulative Market), 2023-2033
• Figure 51: Opportunity Analysis, Defense Aircraft Propulsion Market, By Engine (CAGR), 2023-2033
• Figure 52: Opportunity Analysis, Defense Aircraft Propulsion Market, By Aircraft Type (Cumulative Market), 2023-2033
• Figure 53: Opportunity Analysis, Defense Aircraft Propulsion Market, By Aircraft Type (CAGR), 2023-2033
• Figure 54: Scenario Analysis, Defense Aircraft Propulsion Market, Cumulative Market, 2023-2033
• Figure 55: Scenario Analysis, Defense Aircraft Propulsion Market, Global Market, 2023-2033
• Figure 56: Scenario 1, Defense Aircraft Propulsion Market, Total Market, 2023-2033
• Figure 57: Scenario 1, Defense Aircraft Propulsion Market, By Region, 2023-2033
• Figure 58: Scenario 1, Defense Aircraft Propulsion Market, By Engine, 2023-2033
• Figure 59: Scenario 1, Defense Aircraft Propulsion Market, By Aircraft Type, 2023-2033
• Figure 60: Scenario 2, Defense Aircraft Propulsion Market, Total Market, 2023-2033
• Figure 61: Scenario 2, Defense Aircraft Propulsion Market, By Region, 2023-2033
• Figure 62: Scenario 2, Defense Aircraft Propulsion Market, By Engine, 2023-2033
• Figure 63: Scenario 2, Defense Aircraft Propulsion Market, By Aircraft Type, 2023-2033
• Figure 64: Company Benchmark, Defense Aircraft Propulsion Market, 2023-2033