絕氣推進系統市場報告：2030 年趨勢、預測與競爭分析

絕氣推進系統的趨勢與預測

預計到 2030 年，全球絕氣推進系統市場將達到 1,631 億美元，2024 年至 2030 年複合年成長率為 4.8%。該市場的主要驅動力是對海底安全可靠軍事行動的需求不斷成長、絕氣推進技術的改進、整修這些技術改造常規潛艇的能力以及對水下科學和探勘活動的需求不斷增加。隨著斯特林、MESMA 和燃料電池市場的機遇，全球絕氣推進系統市場的未來充滿希望。

Lucintel 預測，由於造船和潛艇建造對技術進步的需求不斷成長，在預測期內，Line-Fit仍將是最大的細分市場。

隨著各國購買隱形戰艦、攻擊潛艦、巡邏艇、感測器、雷達、飛彈、自主系統並升級其海上和水下海軍能力，預計亞太地區將出現最高的成長。

絕氣推進系統市場新趨勢

由於技術發展和戰略重點的變化，絕氣推進（AIP）系統正在迅速發展。主要的新興趨勢正在重塑 AIP 系統的功能和應用，並提高其在海軍作戰中的有效性。以下是五個主要趨勢：

• 混合AIP系統：近年來，配備燃料電池和先進電池技術的混合AIP系統的使用增加。這些系統的高效設計提高了水下續航能力，混合還提高了功率最佳化，從而可以執行更長的任務並提高操作靈活性。
• 燃料電池技術的進步：改進的燃料電池性能將使 AIP 系統更有效率、可靠。例如，它提高了功率密度並降低了旨在提高潛艇性能的整體成本。這種趨勢有助於透過減少對錶面空氣的依賴來最大化水下操作持續時間。
• 提高能量密度：更強大的能源儲存設備，例如超級電容或高容量電池，有助於提高AIP系統效率的效能。增加的能量密度允許更長的水下工作時間和更短的同時充電間隔。這一趨勢擴大了潛艇的潛在應用，也支持其任務的擴展。
• 隱身降噪：全新AIP系統著重降噪，同時最佳化隱身能力。由於系統設計和材料的創新，潛水艇變得更加安靜，聲學特徵得到改善。這對於保持戰略優勢和避免被發現非常重要。
• 模組化、可擴展的設計：模組化、可擴展的AIP系統實現了潛水艇的靈活設計。它可以針對不同尺寸和類型的潛艇進行量身定做，從而滿足不同的作戰要求。這一趨勢提高了配備AIP技術的潛艇的靈活性和機動性。

總而言之，絕氣推進（AIP）系統的新趨勢，例如混合技術、燃料電池進步、更高的能量密度、增強的隱身能力和模組化設計，正在改變潛艇的能力。這些趨勢支持擴大水下作戰，從而促進創新並提高海軍的戰略優勢。

絕氣推進系統市場的最新趨勢

絕氣推進（AIP）系統的進步反映了戰略應用的突破性技術改進。主要發展包括潛艦能力和作戰效率的提高，以下是五個值得注意的發展：

• 燃料電池整合：先進的燃料電池整合提高了 AIP 系統的效率和耐用性。最近的發展包括增加動力以實現更好的可靠性，從而使潛艇能夠長時間保持在水下而不浮出水面。這些新見解透過靈活的操作方法支援任務擴展。
• 史特靈引擎增強功能：史特靈引擎技術正在改進，從而產生更高效的 AIP 系統。這些進步包括提高熱效率，有助於縮短水下續航時間，以及降低操作聲級，從而降低隱身特性。這些發展現在正被納入新的潛水艇設計中。
• 混合動力解決方案：先進的電池和燃料電池混合提高了傳統 AIP架構的整體系統級性能。這種組合支持延長水下任務並提高靈活性，從而提高能源效率並延長容量利用率。
• 先進能源儲存：正在開發具有大容量電池和超級電容的改進能源儲存系統以支援AIP。由於能量密度水平的提高和充電時間的縮短，這些非常重要，有助於提高長時間水下作業期間的整體性能。這對於滿足海軍戰略需求有重大影響。
• 隱形最佳化：現代 AIP 系統力求最大限度地減少噪音、減少聲學特徵並提高隱形性。透過系統設計和材料的改進將噪音降至最低，從而使潛艇不易被發現。這有助於保持營運效率並避免被發現。

先進燃料電池技術的整合、增強史特靈引擎的熱容量、混合動力解決方案、先進的能源儲存和隱身最佳化等，都大大提高了潛艇的能力。

絕氣推進系統市場的策略性成長機會

由於技術進步和海軍能力需求的不斷成長，絕氣推進（AIP）系統市場提供了多種策略成長機會。透過發現這些機會，股東可以利用新趨勢並增加其在市場中的影響力。五個主要成長機會是：

• 先進燃料電池技術：先進燃料電池技術：投資先進燃料電池技術的研究和部署可提供巨大的成長潛力。更高性能的燃料電池可以提高 AIP 系統的功率和效率，從而增加對海軍應用的尖端解決方案的需求。
• 混合AIP 解決方案：除此之外，您還可以擴展到將燃料電池技術與先進電池結合的混合AIP 系統。由於其運作效率，這種混合可以支援更長的水下任務，這對尋求這種能力的海軍來說很有吸引力。
• 能源儲存創新：同時，高容量電池和超級電容器等能源儲存創新可用於發展AIP系統。能量密度的提高和充電時間的縮短可提高整體系統性能，同時滿足現代潛艇的要求並擴大市場機會。
• 隱形和聲學管理：同樣，專注於聲學管理技術和隱形可以增加 AIP 系統的銷售量。願意從事秘密行動的國防組織可能會發現聲學訊號減少的潛艇由於保密性增強而非常有用。
• 模組化和可擴展設計：另一個機會是為AIP系統開發可擴展的模組化設計，為不同類型的潛水艇帶來靈活的替代解決方案。客製化解決方案可以滿足所有類型的營運需求，從而擴大絕氣推進（AIP）技術的市場基礎。

總之，AIP 的策略擴張潛力包括推進燃料電池能源、開發混合選項、能源儲存創新、最佳化隱身性和模組化設計。利用這些機會將擴大市場並實現更有效的海軍行動。

絕氣推進系統市場的促進因素與挑戰

各種技術、經濟和監管因素都會影響絕氣推進(AIP) 系統市場。因此，您需要在了解市場促進因素的同時做出明智的決策。

推動絕氣推進系統市場的因素包括：

1.技術進步：市場成長是由燃料電池、史特靈引擎和混合系統等AIP技術的創新所驅動的。這項進步將提高潛艦性能，包括耐用性、提高 AIP 採用率和進一步發展。

2. 提升海軍能力：由於對先進海軍能力和擴大水下作戰的需求不斷增加，需要高效率的AIP系統。為提高性能和隱身能力而做出的重大努力正在推動市場對符合防禦策略的配備 AIP 的潛艇的需求。

3. 強調隱身和秘密行動：強調隱身和秘密行動推動了具有較低聲學特徵和改進隱身能力的AIP系統的發展。因此，這種方法提高了作戰效率，並將吸引那些喜歡針對此類秘密行動採用先進解決方案的國防組織。

4.政府投資和國防預算：政府對國防和海軍現代化計畫的投資增加將推動市場成長。專門用於研究、開發和收購更先進的AIP系統的資金不僅將推動技術進步，而且還將創造更大的市場領域。

5.戰略防禦需求：更長的水下續航力、更靈活的作戰等戰略防禦需求需要先進的AIP系統。這種需求支援海軍應用中最尖端科技的開發和部署。

絕氣推進系統市場面臨的挑戰是：

1. 高開發和採購成本：開發和採購複雜的 AIP 系統的高成本可能會阻礙採用。技術和基礎設施支出可能會阻礙市場成長率，特別是在國防資源有限的國家。

2.複雜的維護和支援：AIP系統非常複雜，因此需要複雜的維護支援。缺乏熟練的員工和足夠的維護設施會降低營運效率並影響總擁有成本 (TCO)。

3. 法規與出口管制：遵守出口法規將是 AIP 系統市場面臨的挑戰。當我們擴展到其他市場（包括海外）時，監管變化可能會影響技術轉讓，由於這些市場有不同的監管規定，因此很難駕馭這些市場。

技術開拓、海軍能力的增強、對隱身的興趣、政府財政支援和國防戰略是AIP系統市場擴大的主要原因。但解決高成本、維護複雜、法規等問題也不容忽視。平衡這些促進因素和阻礙因素對於未來市場的開拓極為重要。

按部分分類的絕氣推進系統

這項研究包括按類型、適合度和地區分類的全球絕氣推進系統的預測。

絕氣推進系統市場的國家展望

絕氣推進（AIP）系統正在改變潛艦的作戰方式，該系統提高了水下續航力和隱身能力。最近，各國在技術、效率和戰略用途方面都發生了變化。這些發展對於各國尋求加強其海軍能力以保持競爭力並適應新的作戰需求非常重要。讓我們來看看美國、中國、德國、印度和日本的最新動態：

• 美國：美國正在發展AIP技術，重點是將燃料電池系統與最新的鋰離子電池技術整合。目前的舉措著重於擴大潛艦的續航力和作戰範圍，並透過正在進行的混合AIP 系統研究提供支援。所有這些變化都是為了維持美國的戰略優勢，擴大美國潛艦的作戰能力。
• 中國：中國在AIP技術方面取得了長足進步，主要集中在開發不依賴空氣的燃料電池。最近的里程碑包括將高效 AIP 系統整合到新型潛艇中，以提高隱身性和續航能力。中國發展自己的AIP的計畫將有助於最大限度地減少對外依賴，同時提高海軍效率。
• 德國：德國在基於史特靈引擎的AIP 技術方面長期處於領先地位。最新的改進包括提高史特靈引擎的性能和效率，從而提高水下的耐用性和隱身性。德國潛艇有多種類型，每種都配備了獨立開發的AIP系統。
• 印度：旨在增強印度潛艦 AIP 技術能力的本土系統的開發工作正在取得進展。值得注意的是，印度設計的基於燃料電池的 AIP 系統最近經過測試並整合到潛艇部隊中。其結果將是提高印度海軍艦隊的隱身性和行動範圍，以實現國防目標。
• 日本：日本旨在改進AIP技術並使燃料電池系統更有效率。最新的進展是將先進類型的AIP系統整合到新型潛艇中，不僅可以提高隱身性，還可以提高水下續航力。這些主題支持日本的戰略利益並提高海上作戰效率。

常問問題

Q1.絕氣推進系統的市場規模有多大？

A1. 到 2030 年，全球絕氣推進系統市場預計將達到 1,631 億美元。

Q2.市場成長預測是多少：

A2. 2024年至2030年，全球絕氣推進系統市場預計將以4.8%的複合年成長率成長。

Q3.影響市場成長的主要促進因素是：

A3. 該市場的主要驅動力是對安全可靠的海底軍事行動的需求不斷成長、絕氣推進探勘的改進、整修這些技術改造常規潛艇的能力以及對海底科學技術的需求不斷成長。

Q4.市場的主要細分市場是：

A4. 全球絕氣推進系統市場前景廣闊，斯特林、MESMA 和燃料電池市場充滿機會。

Q5.市場的主要企業是：

A5.絕氣推進系統的一些主要企業如下：

• Saab
• Siemens
• China Shipbuilding Industry
• UTC Aerospace Systems
• Lockheed Martin
• Naval
• General Dynamics

Q6.未來最大的細分市場是什麼？

A6.Lucintel 預測，由於造船和潛艇建造對技術進步的需求不斷成長，在預測期內，Line-Fit仍將是最大的細分市場。

Q7. 未來五年預計哪些地區的市場成長最大？

A7.亞太地區預計在預測期內成長最快。各國購買隱形戰艦、攻擊潛艦、巡邏艇、感測器、雷達、飛彈和自主系統，以升級其海上和水下海軍能力。

Q8. 可以客製化報告嗎？

A8. 是的，Lucintel 提供 10% 的客製化服務，無需額外付費。

目錄

第1章執行摘要

第2章全球絕氣推進系統市場：市場動態

• 簡介、背景、分類
• 供應鏈
• 產業促進因素與挑戰

第3章 2018-2030年市場趨勢及預測分析

• 宏觀經濟趨勢（2018-2023）與預測（2024-2030）
• 全球絕氣推進系統市場趨勢（2018-2023）與預測（2024-2030）
• 按類型分類的全球絕氣推進系統市場
  • 英鎊
  • MESMA
  • 燃料電池
  • 其他
• 全球絕氣推進系統市場（按 Fit 分類）
  • Line-Fit
  • 改裝（修改）

第4章 2018-2030年區域市場趨勢及預測分析

• 全球絕氣推進系統市場（按地區）
• 北美絕氣推進系統市場
• 歐洲絕氣推進系統市場
• 亞太絕氣推進系統市場
• 其他地區絕氣推進系統市場

第5章 競爭分析

• 產品系列分析
• 業務整合
• 波特五力分析

第6章 成長機會與策略分析

• 成長機會分析
  • 按類型分類的全球絕氣推進系統市場成長機會
  • 全球絕氣推進系統市場成長機會（按 Fit）
  • 全球絕氣推進系統市場成長機會（按地區）
• 全球絕氣推進系統市場的新興趨勢
• 戰略分析
  • 新產品開發
  • 全球絕氣推進系統市場產能擴張
  • 全球獨立推進系統市場的合併、收購與合資
  • 認證和許可

第7章主要企業概況

• Saab
• Siemens
• China Shipbuilding Industry
• UTC Aerospace Systems
• Lockheed Martin
• Naval
• General Dynamics

Air Independent Propulsion Systems Trends and Forecast

The future of the global air independent propulsion systems market looks promising with opportunities in the stirling, MESMA, and fuel cell markets. The global air independent propulsion systems market is expected to reach an estimated $163.1 billion by 2030 with a CAGR of 4.8% from 2024 to 2030. The major drivers for this market are growth in the need for secure and safe military operations undersea, improvements in air-independent propulsion technology and the ability to refit conventional submarines with these technologies, along with the increase in underwater science and exploration activities.

Lucintel forecasts that line-fit will remain the largest segment over the forecast period due to rising need for technology advancement in the shipbuilding and submarine building.

APAC is expected to witness highest growth over the forecast period because the countries are purchasing stealthy warships, attack submarines, patrol boats, sensors, radars, missiles, and autonomous systems to upgrade their surface and subsurface naval capabilities.

Emerging Trends in the Air Independent Propulsion Systems Market

Driven by technological developments and changing strategic priorities, air independent propulsion (AIP) systems are rapidly evolving. Key emerging trends are reshaping the capabilities and applications of AIP systems, making them more effective in naval operations. Here are five key trends:

• Hybrid AIP Systems: The past few years have witnessed an increase in the use of hybrid AIP systems featuring fuel cells as well as advanced battery technologies. Underwater endurance has been extended due to these systems' high-efficiency designs, while power optimization has also improved with such hybridization facilitating longer missions as well as increased operational flexibility.
• Fuel Cell Technology Advancements: Better performing fuel cells result in more efficient and reliable AIP systems. Examples include higher power densities, which lower overall costs for submarines' performance improvement purposes. This trend helps maximize underwater operations duration reducing dependence on surface air.
• Enhanced Energy Density: More powerful energy storage devices like supercapacitors and high-capacity batteries for instance contribute to better performance in terms of AIP system efficiency. Greater energy density enables longer underwater operation times coupled with quicker re-charging intervals taking place simultaneously. This trend expands the possibilities for submarine's application and assists to lengthen their missions too.
• Stealth and Noise Reduction: Novel AIP systems concentrate on noise reduction while optimizing stealth capabilities. Submarines are becoming quieter with improved acoustic signatures as a result of innovations in system design and materials, thus making them to be more stealthy and effective in terms of operations. This is important for preserving strategic advantages and avoiding detection.
• Modular and Scalable Designs: Modular and scalable AIP systems have allowed submarines to be designed flexibly. They can be adjusted to suit different sizes and types of submarines, thereby meeting various operational requirements. This tendency enhances the flexibility and mobility of subs equipped with the AIP technology

In conclusion, the emergent trends concerning air independent propulsion (AIP) systems, such as hybrid technologies, fuel cell advances, higher energy densities, enhanced stealth features as well as modular designs are changing submarine capabilities. The said trends encourage innovation and support for longer duration underwater operations that promotes strategic naval advantages.

Recent Developments in the Air Independent Propulsion Systems Market

Advances in air independent propulsion (AIP) systems reflect breakthrough technology improvements for strategic applications. Key developments represent progress towards better submarine capabilities, greater operational efficiency among others; here are some five notable ones:

• Fuel Cell Integration: Advanced fuel cell integration increases efficiency and endurance of AIP systems. Some recent developments include power output enhancement to achieve better reliability hence allowing submarines stay submerged for longer durations without surfacing. These new findings support extended missions appertaining flexibility on how it operates.
• Stirling Engine Enhancements: There have been improvements in stirling engine technology which has resulted into more efficient AIP systems. Such advancements include increased thermal efficiency which contributes towards lower underwater endurance time along with reduced operation sound levels thus reducing the stealth characteristics. These developments are currently being incorporated into new submarine designs.
• Hybrid Power Solutions: Hybridization of advanced batteries with fuel cells has yielded improved performance at overall system level for conventional AIP architectures. The combination leads to increased energy efficiency and prolonged capability use as it supports extended underwater missions and enhances flexibility.
• Advanced Energy Storage: Improved energy storage systems through high-capacity batteries and supercapacitors have been developed to support AIP. These are important due to their increased energy density levels and reduced recharging time that contributes to better overall performance during longer durations of operation while underwater. This has a significant impact in fulfilling strategic naval requirements.
• Stealth Optimization: Modern AIP systems now seek to minimize noise, reduce acoustic signatures, improve stealth etc. Noise is being minimized by improvements in system design and materials, making submarines less detectable. It helps maintain the operational efficiency thus avoiding detection.

Advanced fuel cell technology integration, stirling engine enhancement for better thermal capacity along with others, such as hybrid power solutions, advanced energy storage, and stealth optimization are majorly improving submarine capabilities among other things regarding them like; long-term mission accomplishment under sea water, useful operations with regard to costs achieved in the process.

Strategic Growth Opportunities for Air Independent Propulsion Systems Market

The market for air independent propulsion (AIP) systems is offering several strategic opportunities for growth, which are as a result of the growing technological advancements and demand in naval capabilities. Discovering these openings can enable shareholders to exploit emerging trends and extend their market presence. These are five main opportunities for growth:

• Advanced Fuel Cell Technologies: Making investments in the research and deployment of advanced FC technologies, offers significant potential for growth. The AIP system's power output and efficiency might be lifted by better performance fuel cells thereby increasing demand for state-of-the-art solutions that target naval applications.
• Hybrid AIP Solutions: In addition to this, one can venture into hybrid AIP systems that combine fuel cell technology with evolved batteries. Such hybrids offer greater efficiency in operation making it possible for them to support longer under-water missions which makes them attractive to naval forces wanting more such capabilities.
• Energy Storage Innovations: On the other hand, energy storage innovations like high-capacity batteries or supercapacitors can be used to grow AIP systems. Improved energy densities coupled with faster recharging times enhance overall system performance while at the same time addressing the requirements of modern-day submarines thus opening up more market opportunities.
• Stealth and Acoustic Management: Similarly, concentrating on acoustic management technologies and stealth could lead to an increase in sales of AIP systems. Defense organizations looking forward to covert operations will find submarines with reduced sound signatures quite useful because they have improved features of secrecy.
• Modular and Scalable Designs: Another opportunity is developing scalable modular designs for AIP systems which bring about flexible alternative solutions across various submarine types. Customized solutions allow all types of operational demands to be addressed thereby expanding the market base for these air independent propulsion (AIP) technologies.

In conclusion; strategic expansion possibilities within AIP consist advancing fuel cell energies, developing hybrid options, innovation of energy storage devices, optimization of stealth plus modular designs among others. Taking advantage of such opportunities could result in market expansion hence more effective naval operations.

Air Independent Propulsion Systems Market Driver and Challenges

Various technological, economic, regulatory factors affect the air independent propulsion (AIP) systems market. One should therefore understand these drivers while navigating the market to make informed decisions

The factors responsible for driving the air independent propulsion systems market include:

1. Technological Advancements: Market growth is propelled by innovations in fuel cells, Stirling engines, hybrid systems among other aspects of AIP technology. Submarine performance such as endurance becomes better due to this advancement thereby increasing adoption rates and further developments regarding AIPs.

2. Increasing Naval Capabilities: Efficient AIP systems are required because there is growing demand for advanced naval capabilities and extended underwater operations. The great deal of work that has gone into improving the performance & stealth abilities has boosted market demand for submarines fitted with them to align with defense strategies.

3. Focus on Stealth and Covert Operations: The development of AIP systems with lower acoustic signature and improved stealth capabilities has been driven by the emphasis on stealth and covert operations. Consequently, this approach enhances operational effectiveness and hence appeals to defence organizations that prefer advanced solutions for such secretive activities.

4. Government Investments and Defense Budgets: Market growth is fueled by increased government investments in defense and naval modernization programs. The funds availed towards research, development and acquisition of more advanced AIP systems facilitate technological advancements as well as creating a bigger market segment.

5. Strategic Defense Requirements: There is need for advanced AIP systems due to strategic defense requirements such as longer underwater endurance and more operational flexibility. This need supports the development and deployment of cutting-edge technologies in naval applications.

Challenges in the air independent propulsion systems market are:

1. High Development and Acquisition Costs: Adoption can be hindered by the high costs involved in developing or acquiring sophisticated AIP systems. Especially in nations having limited resources allocated to national defense, technology together with infrastructure spending could fetter market growth rates.

2. Complex Maintenance and Support: Complex maintenance support is needed since AIP systems are quite intricate. Operational efficiency may be affected by lack of skilled personnel staff or adequate maintenance facilities which might impact the total cost of ownership (TCO).

3. Regulatory and Export Controls: Compliance with regulatory export controls poses challenges for the AIP systems market. Changes in regulations may affect technology transfers along with expansion into other markets including foreign ones, therefore making it difficult to navigate these markets because they have different restrictions.

Technological developments, naval capabilities growth, stealth interests, financial government support and defense strategies are the primary reasons behind AIP systems market expansion. However, solving problems of high costs, complicated maintenance and regulation should not be ignored. Striking a balance between these drivers and obstacles is crucial for the future development of the market.

List of Air Independent Propulsion Systems Companies

Companies in the market compete on the basis of product quality offered. Major players in this market focus on expanding their manufacturing facilities, R&D investments, infrastructural development, and leverage integration opportunities across the value chain. With these strategies air independent propulsion systems companies cater increasing demand, ensure competitive effectiveness, develop innovative products & technologies, reduce production costs, and expand their customer base. Some of the air independent propulsion systems companies profiled in this report include-

• Saab
• Siemens
• China Shipbuilding Industry
• UTC Aerospace Systems
• Lockheed Martin
• Naval
• General Dynamics

Air Independent Propulsion Systems by Segment

The study includes a forecast for the global air independent propulsion systems by type, fit, and region.

Air Independent Propulsion Systems Market by Type [Analysis by Value from 2018 to 2030]:

• Stirling
• Mesma
• Fuel Cell
• Others

Air Independent Propulsion Systems Market by Fit [Analysis by Value from 2018 to 2030]:

• Line-Fit
• Retrofit

Air Independent Propulsion Systems Market by Region [Analysis by Value from 2018 to 2030]:

• North America
• Europe
• Asia Pacific
• The Rest of the World

Country Wise Outlook for the Air Independent Propulsion Systems Market

Submarine operations are transformed by air independent propulsion (AIP) systems, which improve underwater endurance and stealth capabilities. Changes in technology, efficiency and strategic applications can be seen across various countries recently. These developments are important as the nations seek to enhance their naval capacities so as to stay competitive and adapt to new operational demands. Let us now have a look at some recent developments in the US, China, Germany, India, and Japan:

• United States: The USA is advancing its AIP technology with greater emphasis on integrating fuel cells systems and modern lithium ion battery technologies. Current initiatives have focused on increasing submarine endurance and operational range that is being supported through ongoing studies concerning hybrid AIP systems. All these changes are meant for maintaining strategic superiority of the country and extending the U.S submarine's operational capabilities.
• China: China has made significant progress in AIP technology where they have mainly concentrated on air-independent fuel cells development. Some of the most recent milestones include having high-efficiency AIP systems integrated into new submarine classes for increased stealthiness as well as endurance. The Chinese plans with respect to indigenous AIP development will help them minimize external dependency while improving their naval efficiency.
• Germany: Over time, Germany has continuously been leading in terms of proprietary stirling engine based AIP technology. Latest improvements include enhancing the performance and efficiency of the stirling engines thus leading to better underwater endurance as well as stealthiness. German submarines feature different kinds of models each incorporating country's own developed AIP system hence this signifies efforts to keep it technological edge within naval operations.
• India: There is progress being made towards developing indigenous systems that would strengthen India's submarines capabilities with regard to AIP technology. Notably recently there were tests carried out about Indian designed fuel cell based AIP system that was integrated into its submarine force. Consequently this will lead to enhancing Indian navy fleet's stealthy quality along with its operation range thereby falling inline with defense objectives.
• Japan: Japan is improving its AIP technology and looking to make its fuel cell systems more efficient. The latest trends have seen advanced types of AIP systems integrated into new submarine classes that are capable of increasing their underwater endurance besides stealthiness. These themes support Japan's strategic interests and improve its operational efficiency at sea.

Features of the Global Air Independent Propulsion Systems Market

Market Size Estimates: Air independent propulsion systems market size estimation in terms of value ($B).

Trend and Forecast Analysis: Market trends (2018 to 2023) and forecast (2024 to 2030) by various segments and regions.

Segmentation Analysis: Air independent propulsion systems market size by type, fit, and region in terms of value ($B).

Regional Analysis: Air independent propulsion systems market breakdown by North America, Europe, Asia Pacific, and Rest of the World.

Growth Opportunities: Analysis of growth opportunities in different type, fit, and regions for the air independent propulsion systems market.

Strategic Analysis: This includes M&A, new product development, and competitive landscape of the air independent propulsion systems market.

Analysis of competitive intensity of the industry based on Porter's Five Forces model.

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FAQ

Q1. What is air independent propulsion systems market size?

Answer: The global air independent propulsion systems market is expected to reach an estimated $163.1 billion by 2030.

Q2. What is the growth forecast for air independent propulsion systems market?

Answer: The global air independent propulsion systems market is expected to grow with a CAGR of 4.8% from 2024 to 2030.

Q3. What are the major drivers influencing the growth of the air independent propulsion systems market?

Answer: The major drivers for this market are growth in the need for secure and safe military operations undersea, improvements in air-independent propulsion technology and the ability to refit conventional submarines with these technologies, along with the increase in underwater science and exploration activities.

Q4. What are the major segments for air independent propulsion systems market?

Answer: The future of the global air independent propulsion systems market looks promising with opportunities in the stirling, MESMA, and fuel cell markets.

Q5. Who are the key air independent propulsion systems market companies?

Answer: Some of the key air independent propulsion systems companies are as follows:

• Saab
• Siemens
• China Shipbuilding Industry
• UTC Aerospace Systems
• Lockheed Martin
• Naval
• General Dynamics

Q6. Which air independent propulsion systems market segment will be the largest in future?

Answer: Lucintel forecasts that line-fit will remain the largest segment over the forecast period due to rising need for technology advancement in the shipbuilding and submarine building.

Q7. In air independent propulsion systems market, which region is expected to be the largest in next 5 years?

Answer: APAC is expected to witness highest growth over the forecast period because the countries are purchasing stealthy warships, attack submarines, patrol boats, sensors, radars, missiles, and autonomous systems to upgrade their surface and subsurface naval capabilities.

Q8. Do we receive customization in this report?

Answer: Yes, Lucintel provides 10% customization without any additional cost.

This report answers following 11 key questions:

• Q.1. What are some of the most promising, high-growth opportunities for the air independent propulsion systems market by type (stirling, MESMA, fuel cell, and others), fit (line-fit and retrofit), and region (North America, Europe, Asia Pacific, and the Rest of the World)?
• Q.2. Which segments will grow at a faster pace and why?
• Q.3. Which region will grow at a faster pace and why?
• Q.4. What are the key factors affecting market dynamics? What are the key challenges and business risks in this market?
• Q.5. What are the business risks and competitive threats in this market?
• Q.6. What are the emerging trends in this market and the reasons behind them?
• Q.7. What are some of the changing demands of customers in the market?
• Q.8. What are the new developments in the market? Which companies are leading these developments?
• Q.9. Who are the major players in this market? What strategic initiatives are key players pursuing for business growth?
• Q.10. What are some of the competing products in this market and how big of a threat do they pose for loss of market share by material or product substitution?
• Q.11. What M&A activity has occurred in the last 5 years and what has its impact been on the industry?
• Market Report

Table of Contents

1. Executive Summary

2. Global Air Independent Propulsion Systems Market : Market Dynamics

• 2.1: Introduction, Background, and Classifications
• 2.2: Supply Chain
• 2.3: Industry Drivers and Challenges

3. Market Trends and Forecast Analysis from 2018 to 2030

• 3.1. Macroeconomic Trends (2018-2023) and Forecast (2024-2030)
• 3.2. Global Air Independent Propulsion Systems Market Trends (2018-2023) and Forecast (2024-2030)
• 3.3: Global Air Independent Propulsion Systems Market by Type
  • 3.3.1: Stirling
  • 3.3.2: MESMA
  • 3.3.3: Fuel Cell
  • 3.3.4: Others
• 3.4: Global Air Independent Propulsion Systems Market by Fit
  • 3.4.1: Line-Fit
  • 3.4.2: Retrofit

4. Market Trends and Forecast Analysis by Region from 2018 to 2030

• 4.1: Global Air Independent Propulsion Systems Market by Region
• 4.2: North American Air Independent Propulsion Systems Market
  • 4.2.1: North American Air Independent Propulsion Systems Market by Type: Stirling, MESMA, Fuel Cell, and Others
  • 4.2.2: North American Air Independent Propulsion Systems Market by Fit: Line-Fit and Retrofit
• 4.3: European Air Independent Propulsion Systems Market
  • 4.3.1: European Air Independent Propulsion Systems Market by Type: Stirling, MESMA, Fuel Cell, and Others
  • 4.3.2: European Air Independent Propulsion Systems Market by Fit: Line-Fit and Retrofit
• 4.4: APAC Air Independent Propulsion Systems Market
  • 4.4.1: APAC Air Independent Propulsion Systems Market by Type: Stirling, MESMA, Fuel Cell, and Others
  • 4.4.2: APAC Air Independent Propulsion Systems Market by Fit: Line-Fit and Retrofit
• 4.5: ROW Air Independent Propulsion Systems Market
  • 4.5.1: ROW Air Independent Propulsion Systems Market by Type: Stirling, MESMA, Fuel Cell, and Others
  • 4.5.2: ROW Air Independent Propulsion Systems Market by Fit: Line-Fit and Retrofit

5. Competitor Analysis

• 5.1: Product Portfolio Analysis
• 5.2: Operational Integration
• 5.3: Porter's Five Forces Analysis

6. Growth Opportunities and Strategic Analysis

• 6.1: Growth Opportunity Analysis
  • 6.1.1: Growth Opportunities for the Global Air Independent Propulsion Systems Market by Type
  • 6.1.2: Growth Opportunities for the Global Air Independent Propulsion Systems Market by Fit
  • 6.1.3: Growth Opportunities for the Global Air Independent Propulsion Systems Market by Region
• 6.2: Emerging Trends in the Global Air Independent Propulsion Systems Market
• 6.3: Strategic Analysis
  • 6.3.1: New Product Development
  • 6.3.2: Capacity Expansion of the Global Air Independent Propulsion Systems Market
  • 6.3.3: Mergers, Acquisitions, and Joint Ventures in the Global Air Independent Propulsion Systems Market
  • 6.3.4: Certification and Licensing

7. Company Profiles of Leading Players

• 7.1: Saab
• 7.2: Siemens
• 7.3: China Shipbuilding Industry
• 7.4: UTC Aerospace Systems
• 7.5: Lockheed Martin
• 7.6: Naval
• 7.7: General Dynamics