氫動力飛機市場報告：2030 年趨勢、預測與競爭分析

氫動力飛機趨勢和預測

全球氫動力飛機市場的未來充滿希望，氫燃燒和氫燃料電池市場充滿機會。預計2024年至2030年全球氫動力飛機市場將以21.0%的複合年成長率成長。該市場的主要驅動力是航空業對脫碳的興趣日益濃厚以及全球航空乘客數量的增加。

• Lucintel 預測，按類型分類，20 公里以內的里程將在預測期內實現最高成長。
• 在動力來源類別中，由於先進空中運輸等燃料電池電動車的需求增加，氫燃料電池預計將出現強勁成長。
• 從地區來看，由於先進空中運輸對綠色能源的日益關注，預計北美在預測期內仍將是最大的地區。

氫動力飛機市場的策略性成長機會

該行業的新技術進步和基礎設施正在為氫動力飛機創造戰略成長機會。這些產品來自民航和貨運等多種應用，展示了氫動力飛機徹底改變航太業的潛力。

• 商業航空：商業航空在氫動力飛機方面擁有巨大的機會。動力來源客機可以減少碳排放並符合全球永續性目標。由於環境法規的不斷加強和對綠色出行選擇的需求，該行業正在不斷成長。
• 支線和短程航班：對於支線和短程航線，氫動力飛機具有較短、易於管理的航程和更好的加油基礎設施，因此很有意義。該應用程式是進入氫航空世界的理想起點，因為它使航空公司能夠專注於短途航線並發展氫技術方面的專業知識。
• 貨物/貨運：氫氣的高能量含量使其適合低排放的遠距貨物運輸，這也有助於降低營運成本。動力來源貨機還可以滿足對永續物流日益成長的需求。
• 軍事/國防應用：氫動力軍事應用需要效率和航程，特別是在衝突地區或防禦行動等密閉空間飛行時。此外，H2 無人機和其他戰鬥機可以提高作戰效率，同時減少與國防行動相關的碳排放。
• 城市空中交通（UAM）：城市空中交通（UAM）這一新興領域具有與動力來源飛機的使用相關的許多前景。環保的城市交通解決方案，例如使用氫技術運行的綠色無人機和空中計程車，可以幫助城市解決擁塞問題，同時提供傳統交通途徑的環保替代方案。

這些不同的機會表明，氫動力飛機可以滿足多樣化的市場需求，同時增強永續性目標並推動技術突破。

氫動力飛機市場的促進因素與挑戰

技術創新、經濟因素和法律規範只是氫動力航空業面臨的一些促進因素和挑戰。了解這些影響對於大規模採用氫基航空技術至關重要。

推動氫動力飛機市場的因素包括：

• 技術創新：氫動力飛機工業在開發氫燃料電池儲存解決方案和推進系統技術方面取得了重大進展。與其他燃料用途相比，這項變更使這些創新更具成本效益。
• 環境法規：旨在減少二氧化碳排放的嚴格環境法規推動了氫動力飛機的發展。監管壓力正在推動更清潔的技術和遵守航太領域的永續性基準。
• 政府和產業支持：政府支持的增加與產業的支持相結合也是這項變革的關鍵驅動力。透過合資企業和融資激勵措施加速研究對於克服技術和財務障礙非常重要。
• 對永續解決方案的市場需求：市場對永續航空解決方案的需求不斷成長，推動了人們對氫動力飛機的興趣。航空公司現在正在尋找更環保的選擇，並且特別熱衷於投資氫技術和基礎設施。

氫動力飛機市場面臨的挑戰包括：

• 開發成本高：主要挑戰是氫動力飛機和基礎設施的巨大開發成本。大規模研發、原型製作和基礎設施開發需要大量投資，這可能會減慢進度。
• 氫儲存和傳輸：從技術上講，氫的高效儲存和分配仍然是一個挑戰。為了安全有效地儲存和運輸氫氣，必須開發解決方案來支援氫動力飛機的運作要求。
• 基礎設施需求：一個障礙是機場和航空樞紐需要專門的加油基礎設施。加氫站的建設需要大量投資，以及這些設施的維護協調工作。
• 法規和安全標準：氫動力飛機有複雜的要求來滿足法規和安全標準。為了獲得市場認可，遵守航空法規並解決與使用氫氣相關的安全問題非常重要。

氫動力航空業的成長取決於技術創新、環境立法、政府支持、市場需求和其他夥伴關係關係等因素。然而，與開發成本、氫氣儲存、基礎設施、監管合規性和公眾輿論相關的挑戰也不容忽視。平衡這些促進因素和挑戰對於航空業採用氫能紮根並創建永續的機上解決方案至關重要。

目錄

第1章執行摘要

第2章全球氫動力飛機市場：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）
• 全球氫動力飛機市場趨勢（2018-2023）與預測（2024-2030）
• 按類型：全球氫動力飛機市場
  • 不到20公里
  • 20公里至100公里
  • 超過100公里
• 按平台分類：全球氫動力飛機市場
  • 無人機
  • 空中計程車
  • 公務機
• 按動力來源：全球氫動力飛機市場
  • 氫氣燃燒
  • 氫燃料電池
• 依技術分類：全球氫動力飛機市場
  • 全氫動力飛機
  • 混合電動飛機

第4章 2018-2030年區域市場趨勢及預測分析

• 全球氫動力飛機市場區域分佈
• 北美氫動力飛機市場
• 歐洲氫動力飛機市場
• 亞太氫動力飛機市場
• 其他地區氫動力飛機市場

第5章 競爭分析

• 產品系列分析
• 營運整合
• 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：全球氫動力飛機市場成長機會
  • 按平台：全球氫動力飛機市場成長機會
  • 依動力來源：全球氫動力飛機市場成長機會
  • 按技術分類：全球氫動力飛機市場成長機會
  • 按地區分類：全球氫動力飛機市場成長機會
• 全球氫動力飛機市場的新興趨勢
• 戰略分析
  • 新產品開發
  • 擴大全球氫動力飛機市場的產能
  • 全球氫動力飛機市場的併購和合資企業
  • 認證和許可

第7章主要企業概況

• AIRBUS
• AERODELFT
• FLYKA
• HES ENERGY SYSTEMS
• SKAI
• ZEROAVIA

Hydrogen Powered Aircraft Trends and Forecast

The future of the global hydrogen powered aircraft market looks promising with opportunities in the hydrogen combustion and hydrogen fuel cell markets. The global hydrogen powered aircraft market is expected to grow with a CAGR of 21.0% from 2024 to 2030. The major drivers for this market are the growing focus of the aviation industry on decarbonization and increasing air passenger traffic across the globe.

• Lucintel forecasts that, within the type category, up to 20 km is expected to witness the highest growth over the forecast period.
• Within the power source category, hydrogen fuel cell is expected to witness higher growth due to growing demand for fuel cell electric vehicles like advanced air mobility.
• In terms of regions, North America will remain the largest region over the forecast period due to the increasing focus on green energy in advanced air mobility.

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Emerging Trends in the Hydrogen Powered Aircraft Market

Emerging trends in this type of aviation show an industry moving toward new levels of sustainability and innovation. The movement toward zero-emission aviation is driven by these trends, which also show improvements in technology, infrastructure development, and market integration.

• Advancements in hydrogen fuel cells: Efficiency and lightness are important features of any hydrogen fuel cells intended for air transport. Innovations in fuel cell technology are increasing energy density while making storage systems smaller and reducing their weight relative to size. This results in more range and better efficiency toward the commercialization of hydroplanes.
• Infrastructure development: A significant trend is the development of hydrogen refueling infrastructure. Airports or aviation hubs are beginning to construct refueling stations alongside storage tanks for hydrogen gas. The supporting installations play a critical role in the widespread adoption of planes powered by this gas as well as their efficient operations at large scale.
• Assistance by authority and policy: Global governments are providing more financial support, incentives, and regulations for hydrogen aviation. Furthermore, this assistance comes in the form of subsidies for research and development, tax credits for hydrogen infrastructure, and regulations that will allow the safe use of hydrogen in aviation. These policies are crucial in speeding up the acceptance of hydrogen-fueled aircraft.
• Hybrid hydrogen-electric propulsion: Hybrid hydrogen-electric propulsion systems have gained popularity recently. These systems involve the combination of electric motors with hydrogen fuel cells to increase efficiency and performance levels. Hybrid options are seen as a temporary technology that could bridge traditional air travel and purely hydrogen-operated planes.
• Collaborative research and partnerships: This partnership trend is characterized by increased collaboration among aerospace companies, governments, and research institutions. Partnerships are driving innovation while accelerating the development of hydrogen-powered planes. Such collaborations may include shared facilities used for testing purposes, among others, in addition to joint projects directed toward furthering knowledge in a given area, thus promoting progress made by the hydrogen aviation industry.

These emerging trends redefine the future of fuel cell technologies, develop the necessary infrastructure, secure government financial support, explore hybrid propulsion systems, and encourage collaborations between academia and industry players to enhance collective performance in developing new products or services through airborne fuel cell usage. In summary, these trends indicate that zero-emissions aviation is just around the corner.

Recent Developments in the Hydrogen Powered Aircraft Market

Recent developments concerning H2-planes have marked major strides made in technological advancement, establishment of an enabling environment including infrastructure and regulatory support being put forward by several stakeholders toward realizing zero-emission flights while opening up the market.

• Successful prototype flights: Several successful test flights of hydrogen-powered aircraft prototypes have taken place, proving that such technology is viable. These include prototypes for small planes and drones that utilize hydrogen fuel cells as a source of energy.
• Enhanced hydrogen storage solutions: Progress has been made in terms of hydrogen storage solutions such as lightweight composite tanks and high-pressure storage systems. Such innovations are important as they address issues related to storing and handling hydrogen fuel by improving the safety, efficiency, and range of planes using H2.
• Development of hydrogen refueling stations: The establishment of hydrogen refueling stations at airports and aviation hubs is moving forward. This infrastructure enables refilling activities, after which hydrogen planes could make practical sense, representing the operational needs of such aircraft.
• Increased investment and funding: Large investments and funding have been committed toward projects on H2-planes. Among others, governments, private investors, and aerospace companies provide monetary support to hasten research, development, and commercialization of technologies related to hydrogen aviation.
• Collaborative industry initiatives: A joint approach among airplane manufacturers in collaboration with academic institutions and government authorities has seen progress in this field, aiming for an operational airplane run by H2 fuel cells soon. The collaboration among these stakeholders enhances joint research while technologically advancing and testing, thus speeding up developments through a more comprehensive aspect of hydrogen in the aviation industry.

These key trends manifest in terms of showing viability in technological trends relating to prototype development, improved storage options available, the introduction of new refueling facilities, securing sufficient funds, especially from venture capitalists, and developing close collaborations among various actors within the value chain or lifecycle players. Some milestones can be termed sustainable only regarding practical use concerning either thought or H2 airline production processes. These advances underscore significant strides toward establishing sustainable and effective hydrogen aviation.

Strategic Growth Opportunities for Hydrogen Powered Aircraft Market

New technological advances and infrastructure in the industry are spawning strategic growth opportunities for hydrogen-powered aircraft. These arise from various applications, ranging from commercial aviation to freight transport, signifying the potential of hydrogen aviation to revamp the aerospace industry.

• Commercial aviation: Commercial aviation stands a great chance with hydrogen-powered airplanes. The creation of hydrogen-powered passenger planes can help cut carbon emissions and align with global sustainability goals. This section is growing due to heightened environmental regulations and demand for greener travel alternatives.
• Regional and short-haul flights: For regional and short-haul flights, hydrogen-powered planes make more sense because their range is shorter and manageable, as well as their refueling infrastructure. This application provides an ideal starting point for entering the world of hydrogen aviation since it allows airlines to concentrate on shorter routes and develop expertise in handling hydrogen technologies.
• Cargo and freight transport: Another growth area for fuel cell-powered aircraft is the cargo and freight transport sector, whereby the high energy content of hydrogen makes it suitable for long-distance cargo flights with lower emissions, leading to lower operational costs too. Hydrogen-powered freighters could also meet rising needs for sustainable logistics.
• Military and defense applications: Hydrogen-based military sectors specifically require efficiency and range while flying within limited spaces like war zones or areas where defense operations are taking place. In addition, H2 drones and other warfare aircraft can improve operational efficiencies while reducing carbon footprints associated with defense operations.
• Urban air mobility (UAM): In this emerging field of urban air mobility (UAM), there are numerous prospects associated with using hydrogen-powered airplanes. Eco-friendly urban transportation solutions such as green drones or air taxis running on H2 technology can assist in addressing congestion problems in cities while providing environmentally friendly substitutes to traditional modes of transport.

These various opportunities demonstrate that hydrogen aviation can cater to diverse market needs while enhancing sustainability objectives and advancing technological breakthroughs.

Hydrogen Powered Aircraft Market Driver and Challenges

Technological innovation, economic factors, and regulatory frameworks are just a few of the drivers and challenges facing the hydrogen-powered aviation sector. To navigate the path to mass adoption of hydrogen-based aviation technology, it is important to understand these influencers.

The factors responsible for driving the hydrogen powered aircraft market include:

• Technological Innovations: To develop technologies for hydrogen fuel cell storage solutions or propulsion systems, there have been significant advancements in the field of hydrogen-powered aircraft industry. By changing things around here, these innovations make it more feasible in terms of cost-effectiveness compared with other fuel uses.
• Environmental Regulations: The development of hydrogen-powered aircraft has been driven by stronger environmental regulations aimed at reducing carbon emissions. Regulatory pressures encourage cleaner technologies as well as adherence to sustainability benchmarks within aerospace.
• Government and Industry Support: Increased government support combined with backing from industry has become another major driver for this change. This acceleration of research through financing incentives along with joint ventures will be instrumental in overcoming both technical and financial barriers.
• Market Demand for Sustainable Solutions: Growing market demand for sustainable aviation solutions is driving interest in hydrogen powered planes. Airline companies are now seeking eco-friendly options increasingly motivating investments into H2 technology and infrastructure among others.

Challenges in the hydrogen powered aircraft market are:

• Expensive Development Cost: A major challenge is the huge development costs of hydrogen-powered aircraft and infrastructures. Substantial research, prototyping, and infrastructure developments require substantial investment which could slow down progress.
• Hydrogen Storage and Transmission: Technically, efficient storage and distribution of hydrogen remains a challenge. For safe and efficient storage & movement of hydrogen, solutions have to be developed to support the operational requirements of hydrogen powered aircraft.
• Infrastructure Requirements: An obstacle is the requirement for specialized refueling infrastructure at airports and aviation hubs. Building hydrogen refueling stations requires considerable investment along with coordination efforts for the maintenance of these facilities.
• Regulatory and Safety Standards: For hydrogen-powered airplanes, meeting regulatory as well as safety standards has complex requirements. To ensure market acceptance, compliance with aviation regulations and addressing safety concerns associated with the use of hydrogen are significant.

The growth in the hydrogen powered airline industry hinges on such factors as technological innovation, environmental laws, government backing, and market desires among other partnerships. Nevertheless, challenges regarding development costs; hydrogen storage; infrastructure; regulatory adherence; and public opinion cannot be overlooked. It will be key to strike a balance between these drivers and challenges so that adoption in terms of aviation utilizing Hydrogen can take hold thereby leading to sustainability in-flight solutions being reached.

List of Hydrogen Powered Aircraft 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 hydrogen powered aircraft companies cater increasing demand, ensure competitive effectiveness, develop innovative products & technologies, reduce production costs, and expand their customer base. Some of the hydrogen powered aircraft companies profiled in this report include-

• Airbus
• AeroDelft
• Flyka
• HES Energy Systems
• Skai
• ZeroAvia

Hydrogen Powered Aircraft by Segment

The study includes a forecast for the global hydrogen powered aircraft by type, platform, power source, and technology, and region.

Hydrogen Powered Aircraft Market by Type [Analysis by Value from 2018 to 2030]:

• Up To 20 km
• 20 Km To 100 km
• More Than 100 km

Hydrogen Powered Aircraft Market by Platform [Analysis by Value from 2018 to 2030]:

• Unmanned Aerial Vehicles
• Air Taxis
• Business Jets

Hydrogen Powered Aircraft Market by Power Source [Analysis by Value from 2018 to 2030]:

• Hydrogen Combustion
• Hydrogen Fuel Cell

Hydrogen Powered Aircraft Market by Technology [Analysis by Value from 2018 to 2030]:

• Fully Hydrogen-Powered Aircrafts
• Hybrid Electric Aircrafts

Hydrogen Powered Aircraft 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 Hydrogen Powered Aircraft Market

Hydrogen fueled aircraft are a promising stride in the aviation industry that may lead to zero-emission flying. In this area, recent developments indicate breakthroughs in research, technology, and policy of different countries that have their unique contributions to the development of hydrogen aviation.

• United States: In America, major steps forward were taken by companies like ZeroAvia with its hydrogen propelled prototype airplanes as well as Airbus through its American subsidiaries. Developing bigger fuel cells for hydrogen and enhancing airplane design for higher performance have been the main targets here. According to the Federal Aviation Administration (FAA), there is great reliance on monetary support to improve and solidify the research for it to gain commercial viability within ten years.
• China: Among other technologies in the clean energy sector, China has embarked on the use of hydrogen in aviation. Hydrogen-powered drones have already been test flown by the country while others are being experimented with at a larger scale. As part of long-term plans to cut down carbon emissions in aviation Chinese firms including state-owned COMAC, are actively exploring this technology called hydrogen.
• Germany: Germany leads Europe in developing aircraft powered by hydrogen. The likes of Lufthansa and Hydrogen Aviation are working together on projects aimed at integrating regional planes with hydrogen fuel cells. The German government has significantly invested in these programs mainly focusing on creating infrastructure for refueling with hydrogen as well as supporting technological advancements required for commercializing such transport.
• India: Although still at the early stages, there are indications that both government and private sector actors in India have started having an interest in developing air transports that use hydrogen power. Therefore, they include consortiums between foreign corporations undertaking various studies as well as planning related issues such as the introduction of Indian sustainable H2 airlines. The Indian government is taking steps towards creating regulatory frameworks to facilitate operations with H2-powered airships.
• Japan: Besides being committed to environmentally friendly solutions Japan is also moving towards using only green energy sources as a country. Japan has seen several aerospace companies and government collaborations leading to the development and testing of aircraft driven by hydrogen. This will involve putting hydrogen technology into existing aerospace infrastructure, commercial uses, and cargo among others.

Features of the Global Hydrogen Powered Aircraft Market

Market Size Estimates: Hydrogen powered aircraft 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: Hydrogen powered aircraft market size by various segments, such as by type, platform, power source, technology, and region in terms of value ($B).

Regional Analysis: Hydrogen powered aircraft market breakdown by North America, Europe, Asia Pacific, and Rest of the World.

Growth Opportunities: Analysis of growth opportunities in different types, platforms, power sources, technologies, and regions for the hydrogen powered aircraft market.

Strategic Analysis: This includes M&A, new product development, and competitive landscape of the hydrogen powered aircraft market.

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

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This report answers following 11 key questions:

• Q.1. What are some of the most promising, high-growth opportunities for the hydrogen powered aircraft market by type (up to 20 km, 20 km to 100 km, and more than 100 km), platform (unmanned aerial vehicles, air taxis, and business jets), power source (hydrogen combustion and hydrogen fuel cell), technology (fully hydrogen-powered aircraft and hybrid electric aircraft), 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?

Table of Contents

1. Executive Summary

2. Global Hydrogen Powered Aircraft 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 Hydrogen Powered Aircraft Market Trends (2018-2023) and Forecast (2024-2030)
• 3.3: Global Hydrogen Powered Aircraft Market by Type
  • 3.3.1: Up to 20 km
  • 3.3.2: 20 km to 100 km
  • 3.3.3: More than 100 km
• 3.4: Global Hydrogen Powered Aircraft Market by Platform
  • 3.4.1: Unmanned Aerial Vehicles
  • 3.4.2: Air Taxis
  • 3.4.3: Business Jets
• 3.5: Global Hydrogen Powered Aircraft Market by Power Source
  • 3.5.1: Hydrogen Combustion
  • 3.5.2: Hydrogen Fuel Cell
• 3.6: Global Hydrogen Powered Aircraft Market by Technology
  • 3.6.1: Fully Hydrogen-Powered Aircrafts
  • 3.6.2: Hybrid Electric Aircrafts

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

• 4.1: Global Hydrogen Powered Aircraft Market by Region
• 4.2: North American Hydrogen Powered Aircraft Market
  • 4.2.1: North American Market by Type: Up to 20 km, 20 km to 100 km, and More than 100 km
  • 4.2.2: North American Market by Power Source: Hydrogen Combustion and Hydrogen Fuel Cell
• 4.3: European Hydrogen Powered Aircraft Market
  • 4.3.1: European Market by Type: Up to 20 km, 20 km to 100 km, and More than 100 km
  • 4.3.2: European Market by Power Source: Hydrogen Combustion and Hydrogen Fuel Cell
• 4.4: APAC Hydrogen Powered Aircraft Market
  • 4.4.1: APAC Market by Type: Up to 20 km, 20 km to 100 km, and More than 100 km
  • 4.4.2: APAC Market by Power Source: Hydrogen Combustion and Hydrogen Fuel Cell
• 4.5: ROW Hydrogen Powered Aircraft Market
  • 4.5.1: ROW Market by Type: Up to 20 km, 20 km to 100 km, and More than 100 km
  • 4.5.2: ROW Market by Power Source: Hydrogen Combustion and Hydrogen Fuel Cell

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 Hydrogen Powered Aircraft Market by Type
  • 6.1.2: Growth Opportunities for the Global Hydrogen Powered Aircraft Market by Platform
  • 6.1.3: Growth Opportunities for the Global Hydrogen Powered Aircraft Market by Power Source
  • 6.1.4: Growth Opportunities for the Global Hydrogen Powered Aircraft Market by Technology
  • 6.1.5: Growth Opportunities for the Global Hydrogen Powered Aircraft Market by Region
• 6.2: Emerging Trends in the Global Hydrogen Powered Aircraft Market
• 6.3: Strategic Analysis
  • 6.3.1: New Product Development
  • 6.3.2: Capacity Expansion of the Global Hydrogen Powered Aircraft Market
  • 6.3.3: Mergers, Acquisitions, and Joint Ventures in the Global Hydrogen Powered Aircraft Market
  • 6.3.4: Certification and Licensing

7. Company Profiles of Leading Players

• 7.1: AIRBUS
• 7.2: AERODELFT
• 7.3: FLYKA
• 7.4: HES ENERGY SYSTEMS
• 7.5: SKAI
• 7.6: ZEROAVIA