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Aircraft Micro Turbine Engines Market by End Use (OEM, Aftermarket), Platform (General Aviation, Commercial Aviation, Military Aviation, Advanced Air Mobility), Horsepower, Engine Type, Fuel Type and Region - Forecast to 2030

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    Report

  • 177 Pages
  • March 2022
  • Region: Global
  • Markets and Markets
  • ID: 5017644
The Aircraft Micro Turbine Engines Market is projected to grow from USD 2.8 billion in 2021 to USD 4.5 billion by 2030, at a CAGR of 5.5%. The market exhibits lucrative growth potential during the forecast period primarily due to the inherent operational benefits of micro turbine engines, including low operating and maintenance costs of micro turbine engines and the introduction of new generation hybrid architecture in aircraft. Nevertheless, the emergence of hybrid electric power generation technology and the development of distributed power generation systems are anticipated to open several growth opportunities for aircraft micro turbine engine manufacturers during the forecast period.



The Aircraft Micro Turbine Engines Market is dominated by a handful of established players, mainly due to the high technical expertise required to design the high-performance components of a micro turbine engine. The key players in the market include Raytheon Technologies Corporation (US), Honeywell International Inc. (US), Kratos Defense & Security Solutions Inc. (US), Safran SA (France), and UAV Turbines Inc. (US), among others. Major focus was given to the contracts and new product development due to the changing requirements of end-user industries globally. 


Based on installation, the aftermarket segment of the aircraft micro turbine engines market is estimated to account for the largest market share from 2021 to 2030


Based on installation, the auxiliary power segment is expected to dominate the market share during the forecast period (2021 to 2030). The aftermarket segment of the aircraft micro turbine engines market is limited to the replacement of auxiliary power units (APUs) once its service life expires. Since the aftermarket segment mainly replaces micro turbines on old aircraft, the research excludes platforms such as light aircraft, military UAVs, and advanced air mobility (cargo drones and air taxis). Micro turbine engine manufacturers are the sole source of APU replacement. The aftermarket for micro turbine engines of light aircraft, military UAVs, and advanced air mobility aircraft is futuristic as many of these products are yet to be commercialized. However, the continuous advancements in micro turbine engine technology are expected to drive the growth of the aftermarket segment.


Based on end-use, the auxiliary power segment is estimated to account for the largest market share from 2021 to 2030


Based on end-use, the auxiliary power segment is expected to dominate the market share during the forecast period (2021 to 2030). There are ongoing research activities undertaken on an aircraft architecture wherein a micro turbine engine is used for auxiliary power. Micro turbine engines with power ratings between 5 HP and 500 HP are expected to find applications as auxiliary power units in civil aviation by cutting off the operating costs of light aircraft and business jets. The use of microturbines for auxiliary power would increase onboard electric power generation and reduce emissions. The anatomy of a microturbine is similar to a gas turbine used in an aircraft comprising compressor, combustor, turbine, alternator, recuperator, and generator. For small-scale power generation, microturbines for propulsion in aircraft offer many advantages over other technologies, including lesser moving parts, compatible size, lighter weight, better efficiency, lower emissions, and waste fuel utilization. These systems also allow recovery of waste heat, leading to efficiencies greater than 80%.


Based on platform, the advanced air mobility segment is estimated to exhibit the fastest growth in the aircraft micro turbine engines market from 2021 to 2030


Based on the platform, the advanced air mobility segment is expected to witness the fastest growth during the forecast period (2021 to 2030). The unprecedented growth in urban population is envisioned to promote the development of hybrid air taxis and unmanned cargo delivery systems. Presently, several companies are focusing on the development of air taxis that are expected to be commercialized in the coming years. Air taxis can be piloted manually or flown autonomously and have the capability to take off and land vertically, making it easier for them to land in crowded locations in cities. For instance, Rolls- Royce (US) announced the development of a comprehensive hybrid aerospace turbine engine that is expected to pave the way for experimental flights on aircraft after 2021. The development includes a prototype of the APUS i-5 aircraft to demonstrate the commercial applications of hybrid-electric technology. The system could be used across a wide range of transport platforms, including VTOLs, to enable distributed electric propulsion in aircraft. 

Moreover, hybrid architecture is being preferred for power powering intercity travel and cargo deliveries. With the establishment of a viable Beyond Visual Line of Operations (BVLOS) regulatory framework, the adoption of drones for point-to-point delivery of cargo and passengers is envisioned to increase. Japan is one of the few countries to have tested large UAVs for use in freight transport. Swiss Post and Swiss WorldCargo (Switzerland) are currently experimenting with drones for air freight solutions. Plans for commercial drones for freight have recently been announced by many companies, including Deutsche Post (DHL)(Germany), Zookal, Inc. (an Australian textbook service), and Amazon, Inc (US). 


The European market is projected to contribute the largest share from 2021 to 2030 in the aircraft micro turbine engines market


Based on region, Europe is expected to lead the aircraft micro turbine engines market from 2021 to 2030. The demand for stealth and durable aerial vehicles for use in military operations in Europe is expected to rise soon. Key players operating in the European market are entering into agreements and collaborations to develop technologies and platforms that can expand the applicability of aerial vehicles in border and coastal patrolling and homeland security. The UK government has permitted more than 130 private companies to fly UAVs in civilian airspace, while France has approved limited UAV operations for homeland security activities. The demand for compact and efficient propulsion systems to operate military drones will drive the aircraft micro turbine engines market. The rise in the number of development programs for electric aircraft, the development of aerial vehicles with advanced technologies, and the growth in air traffic are the major factors expected to add up to the growth of the market in this region during the forecast period.


The break-up of the profile of primary participants in the aircraft micro turbine engines market:

  • By Company Type: Tier 1 - 49%, Tier 2 - 37%, and Tier 3 - 14% 
  • By Designation: C Level - 55%, Director Level - 27%, and Others - 18% 
  • By Region: North America - 27%, Europe - 55%, Asia Pacific - 9%, Rest of the World - 9%


Major companies profiled in the report include Raytheon Technologies Corporation (US), Honeywell International Inc. (US), Kratos Defense & Security Solutions Inc. (US), Safran SA (France), and UAV Turbines Inc. (US), among others. 

Research Coverage:


This market study covers the aircraft micro turbine engines market across various segments and subsegments. It aims at estimating the size and growth potential of this market across different segments based on installation, end use, platform, horsepower, engine type, fuel type, and region. This study also includes an in-depth competitive analysis of the key players in the market, along with their company profiles, key observations related to their product and business offerings, recent developments undertaken by them, and key market strategies adopted by them.


Reasons to buy this report:


The report will help the market leaders/new entrants in this market with information on the closest approximations of the revenue numbers for the overall aircraft micro turbine engines market. This report will help stakeholders understand the competitive landscape and gain more insights to position their businesses better and to plan suitable go-to-market strategies. The report also helps stakeholders understand the pulse of the market and provides them with information on key market drivers, restraints, challenges, and opportunities.


The report provides insights on the following pointers:

  • Market Penetration: Comprehensive information on aircraft micro turbine engines offered by the top players in the market
  • Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product launches in the aircraft micro turbine engines market
  • Market Development: Comprehensive information about lucrative markets - the report analyses the aircraft micro turbine engines market across varied regions
  • Market Diversification: Exhaustive information about new products, untapped geographies, recent developments, and investments in the aircraft micro turbine engines market 
  • Competitive Assessment: In-depth assessment of market shares, growth strategies, products, and manufacturing capabilities of leading players in the aircraft micro turbine engines market

Table of Contents

1 Introduction
1.1 Study Objectives
1.2 Market Definition
1.3 Study Scope
Figure 1 Aircraft Micro Turbine Engines Market Segmentation
1.3.1 Regional Scope
1.4 Years Considered
1.5 Currency & Pricing
Table 1 USD Exchange Rates
1.5.1 Inclusions & Exclusions
1.6 Limitations
1.7 Stakeholders
1.8 Summary of Changes
2 Research Methodology
2.1 Research Data
Figure 2 Report Process Flow
Figure 3 Aircraft Micro Turbine Engines Market: Research Design
2.1.1 Secondary Data
2.1.1.1 Key Data from Secondary Sources
2.1.2 Primary Data
2.1.2.1 Key Data from Primary Sources
2.1.2.2 Breakdown of Primaries
2.1.3 Introduction
2.1.4 Demand-Side Indicators
2.1.4.1 Growth of Military Expenditure on Unmanned Technologies
2.1.5 Supply-Side Indicators
2.1.5.1 Technological Disruption Affecting Aviation Sector
2.1.5.2 Need for Minimizing Limitations of Current Generation of Propulsion Technologies
2.2 Market Size Estimation
2.3 Research Approach & Methodology
2.3.1 Bottom-Up Approach
Figure 4 Market Size Estimation Methodology: Bottom-Up Approach
2.3.2 Top-Down Approach
Figure 5 Market Size Estimation Methodology: Top-Down Approach
2.3.2.1 COVID-19 Impact on Aircraft Micro Turbine Engines Market
2.4 Data Triangulation
Figure 6 Data Triangulation
2.5 Growth Rate Assumptions
2.6 Assumptions
2.7 Risk Analysis
3 Executive Summary
Figure 7 Aftermarket Segment Estimated to Hold Largest Market Share in 2021
Figure 8 Auxiliary Power Segment to Account for Largest Share of Aircraft Micro Turbine Engines Market in 2021
Figure 9 Europe Dominated Largest Share of Aircraft Micro Turbine Engines Market in 2021
4 Premium Insights
4.1 Attractive Opportunities in Aircraft Micro Turbine Engines Market, 2021-2030
Figure 10 Increase in Regulations for Reducing Aircraft Emissions Globally to Drive Adoption of Aircraft Micro Turbine Engines
4.2 Aircraft Micro Turbine Engines Market, by Horsepower
Figure 11 Above 200 Hp Segment Projected to Lead Market During Forecast Period
4.3 Aircraft Micro Turbine Engines Market, by Engine Type
Figure 12 Turboshaft Segment Expected to Influence Aircraft Micro Turbine Engines Market During Forecast Period
4.4 Aircraft Micro Turbine Engines Market, by Country
Figure 13 Germany Estimated to Register Highest CAGR in Aircraft Micro Turbine Engines Market During Forecast Period
5 Market Overview
5.1 Introduction
5.2 Market Dynamics
Figure 14 Aircraft Micro Turbine Engines Market: Drivers, Restraints, Opportunities, and Challenges
5.2.1 Drivers
5.2.1.1 Low Operating and Maintenance Costs of Micro Turbine Engines
Figure 15 Operational Costs (%) for Aircraft (Excluding Ownership Cost)
5.2.1.2 Introduction of New Generation Hybrid Architecture in Aircraft
5.2.1.3 Enforcement of Stringent Regulations for Emission and Noise
5.2.2 Restraints
5.2.2.1 High Overall Temperature of Systems Restricts Adoption
5.2.3 Opportunities
5.2.3.1 Emergence of Hybrid Electric Power Generation Technology
5.2.3.2 Development of Distributed Power Generation Systems
5.2.4 Challenges
5.2.4.1 Reliability of Micro Turbine Engines in Harsh Environments
5.2.4.2 High Cost of Micro Turbine Engines
5.3 Ranges and Scenarios
Figure 16 Impact of COVID-19 on the Market: Global Scenarios
5.4 Impact of COVID-19 on Aircraft Micro Turbine Engines Market
Figure 17 Impact of COVID-19 on Aircraft Micro Turbine Engines Market
5.4.1 Demand-Side Impact
5.4.1.1 Key Developments from January 2020 to November 2022
Table 2 Key Developments in Aircraft Micro Turbine Engines Market 2020-2021
5.4.2 Supply-Side Impact
5.4.2.1 Key Developments from January 2020 to June 2021
Table 3 Key Developments in Aircraft Micro Turbine Engines Market 2020-2021
5.5 Trends/Disruptions Impacting Customer Businesses
5.5.1 Revenue Shift and New Revenue Pockets for Aircraft Micro Turbine Engine Manufacturers
Figure 18 Revenue Shift in Aircraft Micro Turbine Engines Market
5.6 Average Selling Price Analysis of Aircraft Micro Turbine Engines, 2021
Table 4 Average Selling Price Analysis of Aircraft Micro Turbine Engines and Components in 2021
5.7 Aircraft Micro Turbine Market Engines Ecosystem
5.7.1 Prominent Companies
5.7.2 Private and Small Enterprises
5.7.3 End-users
Figure 19 Aircraft Micro Turbine Engines Market Ecosystem Map
Table 5 Aircraft Micro Turbine Engines Market Ecosystem
5.8 Technology Analysis
5.8.1 Advanced Hybrid Range Extender
5.8.2 Predictive Maintenance
5.8.3 Composite Technology
5.9 Use Case Analysis
5.9.1 Use Case: Electric Hybrid Propulsion System
5.10 Value Chain Analysis of Aircraft Micro Turbine Engines Market
Figure 20 Value Chain Analysis
5.11 Porter's Five Forces Analysis
Table 6 Aircraft Micro Turbine Engines Market: Porter's Five Forces
5.11.1 Threat of New Entrants
5.11.2 Threat of Substitutes
5.11.3 Bargaining Power of Suppliers
5.11.4 Bargaining Power of Buyers
5.11.5 Intensity of Competitive Rivalry
5.12 Trade Analysis
Table 7 Country-Wise Export, Aircraft, Spacecraft, and Parts Thereof, 2019-2020 (USD Thousand)
Table 8 Country-Wise Imports, Aircraft, Spacecraft, and Parts Thereof, 2019-2020 (USD Thousand)
5.13 Volume Data
Table 9 Piston and Turboprop Engine Aircraft Deliveries (1970-2020)
5.14 Tariff and Regulatory Landscape
6 Industry Trends
6.1 Introduction
6.2 Technology Trends
6.2.1 Disruptive Technologies: 3D Printing, Additive Manufacturing
6.2.2 Fuel Agnostic Micro Turbine Engines
6.2.3 Aircraft Hybrid Electrification Technology
Figure 21 Aircraft Hybrid Electrification Technology Roadmap
6.2.4 Alternative Technologies
6.2.4.1 Advanced Batteries
Table 10 Types of Advanced Aircraft Batteries: Comparative Study
6.2.4.2 Lithium-Sulphur (Li-S)
6.2.4.3 Gas Engines
6.2.4.4 Fuel Cells
Figure 22 Futuristic Fuel Cell System in Airbus Aircraft
6.3 Supply Chain Analysis
Figure 23 Supply Chain Analysis
6.4 Nasa Electrified Aircraft Propulsion (Eap) Programs
Table 11 Electric and Hybrid Aircraft Programs
6.4.1 Nasa Starc-Abl
6.4.2 Boeing Sugar Freeze
6.4.3 Nasa N3-X
6.4.4 Esaero Eco-150
6.4.5 Boeing Sugar Volt
6.4.6 Rolls-Royce High Power, High Scalability, Hybrid Powertrain (H3Ps)
6.4.7 Utc Project 804
6.5 Impact of Megatrends
6.5.1 Green Engines & Smart Engines
6.5.2 Electric Propulsion
6.5.3 Machine Learning
6.6 Innovations and Patent Registrations
Table 12 Innovation & Patent Registrations (2018-2021)
7 Aircraft Micro Turbine Engines Market, by Installation
7.1 Introduction
Figure 24 Original Equipment Manufacturers Segment Projected to Register Highest CAGR from 2021 to 2030
Table 13 Aircraft Mirco Turbine Engines Market, by Installation, 2018-2030 (USD Million)
7.2 Original Equipment Manufacturers
7.2.1 Growing Need to Optimize Power Range of Electric Aircraft to Drive Market Growth
7.3 Aftermarket
7.3.1 Demand for Greater Operational Efficiency Expected to Boost Growth of Aftermarket Segment
8 Aircraft Micro Turbine Engines Market, by End Use
8.1 Introduction
Figure 25 Propulsion Segment to Have Highest CAGR from 2021-2030
Table 14 Aircraft Micro Turbine Engines Market, by End Use, 2018-2030 (USD Million)
8.2 Propulsion
8.2.1 Demand for Hybrid Powered Aicraft to Boost Usage of Micro Turbines as Propulsion Systems
8.3 Auxiliary Power
8.3.1 Growing Use of Micro Turbines as Auxiliary Power Systems Onboard to Cut Off Operating Costs and Fuel Auxiliary Power Segment
9 Aircraft Micro Turbine Engines Market, by Platform
9.1 Introduction
Figure 26 Commercial Aviation Segment Projected to Lead Aircraft Micro Turbine Engines Market During Forecast Period
Table 15 Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
9.2 Commercial Aviation
Table 16 Aircraft Micro Turbine Engines Market, Commercial Aviation, 2018-2030 (USD Million)
9.2.1 Evolving Emission Norms to Foster Adoption of Aircraft Micro Turbine Engines
9.3 Military Aviation
Table 17 Aircraft Micro Turbine Engines Market, Military Aviation, 2018-2030 (USD Million)
9.3.1 Efforts Toward Modernization of Defense Forces to Drive Adoption of Micro Turbine Engines
9.4 General Aviation
Table 18 Aircraft Micro Turbine Engines Market, General Aviation, 2018-2030 (USD Million)
9.4.1 Rising Number of Private Aviation Companies Expected to Boost Demand for Aircraft Micro Turbine Engines
9.5 Advanced Air Mobility
Table 19 Aircraft Micro Turbine Engines Market, Advanced Air Mobility, 2018-2030 (USD Million)
9.5.1 Unprecedented Population Growth Promotes Development of Hybrid Air Taxis and Unmanned Cargo Delivery Systems
10 Aircraft Micro Turbine Engines Ma5Rket, by Horsepower
10.1 Introduction
Figure 27 Above 200 Hp Segment Projected to Lead Aircraft Micro Turbine Engines Market During Forecast Period
Table 20 Aircraft Micro Turbine Engines Market, by Horsepower, 2018-2030 (USD Million)
10.2 Above 200 Hp
10.2.1 Advanced Air Mobility Concept to Foster R&D of Advanced Propulsion Systems
10.3 100 to 200 Hp
10.3.1 Augmented Demand for Uavs to Drive Growth of Micro Turbines
10.4 50 to 100 Hp
10.4.1 Integration of Apus in Commercial and Military Aircraft to Fuel Segment Growth
10.5 Below 50 Hp
10.5.1 Growing Demand for Light Aircraft to Boost Market Growth
11 Aircraft Micro Turbine Engines Market, by Engine Type
11.1 Introduction
Figure 28 Turboshaft Segment Projected to Lead Aircraft Micro Turbine Engines Market During Forecast Period
Table 21 Aircraft Micro Turbine Engines Market Size, by Engine Type, 2018-2030 (USD Million)
11.2 Turboshaft
11.2.1 Increasing Demand for Aircraft to Fuel Market Growth
11.3 Turbojet
11.3.1 Simple Structure of Turbojet Micro Turbine Engines Expected to Drive Growth
11.4 Turboprop
11.4.1 Continuous R&D to Drive Adoption of Turboprop Micro Turbines
12 Aircraft Micro Turbine Engines Market, by Fuel Type
12.1 Introduction
Figure 29 Jet Fuel Segment Projected to Dominate Aircraft Micro Turbine Engines Market During Forecast Period
Table 22 Aircraft Micro Turbine Engines Market Size, by Fuel Type, 2018-2030 (USD Million)
12.2 Jet Fuel
12.2.1 Suitable Thermal Properties Expected to Stimulate Adoption of Jet Fuel
12.3 Multi Fuel
12.3.1 Fuel Agnostic Nature of Micro Turbine Technology to Drive Market Growth
13 Regional Analysis
13.1 Introduction
Figure 30 Europe Accounted for Largest Share of Aicraft Micro Turbine Engines Market in 2021
Table 23 Aircraft Micro Turbine Engines Market, by Region, 2018-2030 (USD Million)
13.2 North America
13.2.1 COVID-19 Impact on North America
13.2.2 PESTLE Analysis: North America
Figure 31 North America: Aircraft Micro Turbine Engines Market Snapshot
Table 24 North America: Aircraft Micro Turbine Engines Market, by Installation, 2018-2030 (USD Million)
Table 25 North America: Aircraft Micro Turbine Engines Market, by End Use, 2018-2030 (USD Million)
Table 26 North America: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 27 North America: Aircraft Micro Turbine Engines Market, by Horsepower, 2018-2030 (USD Million)
Table 28 North America: Aircraft Micro Turbine Engines Market, by Engine Type, 2018-2030 (USD Million)
Table 29 North America: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
Table 30 North America: Aircraft Micro Turbine Engines Market Market, by Country, 2018-2030 (USD Million)
13.2.3 US
13.2.3.1 Presence of Leading Aircraft Micro Turbine Engine Manufacturers to Drive Market Growth
Table 31 Us: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 32 Us: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.2.4 Canada
13.2.4.1 Growth of Aerospace Industry in Canada to Fuel Adoption of Aircraft Micro Turbine Engines
Table 33 Canada: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 34 Canada: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.3 Europe
13.3.1 COVID-19 Impact on Europe
13.3.2 PESTLE Analysis: Europe
Figure 32 Europe: Aircraft Micro Turbine Engines Market Snapshot
Table 35 Europe: Aircraft Micro Turbine Engines Market, by Installation, 2018-2030 (USD Million)
Table 36 Europe: Aircraft Micro Turbine Engines Market, by End Use, 2018-2030 (USD Million)
Table 37 Europe: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 38 Europe: Aircraft Micro Turbine Engines Market, by Horsepower, 2018-2030 (USD Million)
Table 39 Europe: Aircraft Micro Turbine Engines Market, by Engine Type, 2018-2030 (USD Million)
Table 40 Europe: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
Table 41 Europe: Aircraft Micro Turbine Engines Market, by Country, 2018-2030 (USD Million)
13.3.3 UK
13.3.3.1 Presence of Aircraft Oems Expected to Drive Market Growth
Table 42 Uk: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 43 Uk: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.3.4 Germany
13.3.4.1 Supportive Government Initiatives Expected to Influence Positive Growth in Market
Table 44 Germany: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 45 Germany: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.3.5 France
13.3.5.1 Presence of Leading Aircraft Manufacturers to Increase Market Growth
Table 46 France: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 47 France: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.3.6 Italy
13.3.6.1 Rising Demand for Border Surveillance and Intelligence Gathering Expected to Fuel Market Growth
Table 48 Italy: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 49 Italy: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.3.7 Russia
13.3.7.1 Increasing Expenditure on Procurement of Technologically Advanced Aerial Vehicles to Boost Market Growth
Table 50 Russia: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 51 Russia: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.3.8 Rest of Europe
13.3.8.1 Rest of Europe Expected to Grow by Increasing Emphasis on Emission-Less Flying
Table 52 Rest of Europe: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 53 Rest of Europe: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.4 Asia-Pacific
13.4.1 PESTLE Analysis: Asia-Pacific
Figure 33 Asia-Pacific Aircraft Micro Turbine Engines Market Snapshot
Table 54 Asia-Pacific: Aircraft Micro Turbine Engines Market, by Installation, 2018-2030 (USD Million)
Table 55 Asia-Pacific: Aircraft Micro Turbine Engines Market, by End Use, 2018-2030 (USD Million)
Table 56 Asia-Pacific: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 57 Asia-Pacific: Aircraft Micro Turbine Engines Market, by Horsepower, 2018-2030 (USD Million)
Table 58 Asia-Pacific: Aircraft Micro Turbine Engines Market, by Engine Type, 2018-2030 (USD Million)
Table 59 Asia-Pacific: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
Table 60 Asia-Pacific: Aircraft Micro Turbine Engines Market, by Country, 2018-2030 (USD Million)
13.4.2 China
13.4.2.1 Significant Potential for Adoption of Hybrid-Electric Propulsion to Push Market Growth
Table 61 China: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 62 China: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.4.3 Japan
13.4.3.1 Technologically Advanced Capabilities Along with Skilled Human Workforce Expected to Boost Market
Table 63 Japan: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 64 Japan: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.4.4 India
13.4.4.1 Improving Domestic Capabilities for Technological Development in Aviation to Drive Market
Table 65 India: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 66 India: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.4.5 Australia
13.4.5.1 Penetration of Advanced Technology in International and Domestic Air Traffic to Drive Market Growth
Table 67 Australia: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 68 Australia: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.4.6 South Korea
13.4.6.1 Presence of Electric Power-Generating Component Manufacturers to Support Market Growth
Table 69 South Korea: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 70 South Korea: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.4.7 Rest of Asia-Pacific
13.4.7.1 Ample Availability of Resources Required for Manufacturing Micro Turbine Engines Expected to Support Market Growth
Table 71 Rest of Asia-Pacific: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 72 Rest of Asia-Pacific: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.5 Rest of the World
13.5.1 PESTLE Analysis: Rest of the World
Figure 34 Rest of the World: Aircraft Micro Turbine Engines Market Snapshot
Table 73 Rest of the World: Aircraft Micro Turbine Engines Market, by Installation, 2018-2030 (USD Million)
Table 74 Rest of the World: Aircraft Micro Turbine Engines Market, by End Use, 2018-2030 (USD Million)
Table 75 Rest of the World: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 76 Rest of the World: Aircraft Micro Turbine Engines Market, by Horsepower, 2018-2030 (USD Million)
Table 77 Rest of the World: Aircraft Micro Turbine Engines Market, by Engine Type, 2018-2030 (USD Million)
Table 78 Rest of the World: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
Table 79 Rest of the World: Aircraft Micro Turbine Engines Market, by Country, 2018-2030 (USD Million)
13.5.2 Middle East
13.5.2.1 Emergence of Startups in Electric Aircraft Manufacturing Expected to Drive Market
Table 80 Middle East: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 81 Middle East: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
13.5.3 Latin America
13.5.3.1 Investments by Global Aircraft Manufacturing Companies to Drive Market Growth
Table 82 Latin America: Aircraft Micro Turbine Engines Market, by Platform, 2018-2030 (USD Million)
Table 83 Latin America: Aircraft Micro Turbine Engines Market, by Fuel Type, 2018-2030 (USD Million)
14 Competitive Landscape
14.1 Introduction
Table 84 Key Developments by Leading Players in Aircraft Micro Turbine Engines Market Between 2018 and 2021
14.2 Market Ranking Analysis of Key Players, 2021
Figure 35 Revenue Analysis for Key Companies in Past 5 Years
14.3 Market Share Analysis
Figure 36 Market Share of Key Players: Aircraft Micro Turbine Engines Market, 2020
Table 85 Aircraft Micro Turbine Engines Market: Degree of Competition
14.4 Company Product Footprint Analysis
Table 86 Company Product Footprint
Table 87 Company Engine Type Footprint
Table 88 Company Applications Footprint
Table 89 Company Region Footprint
14.5 Company Evaluation Quadrant
14.5.1 Aircraft Micro Turbine Engine Market Competitive Leadership Mapping
14.5.1.1 Stars
14.5.1.2 Emerging Leaders
14.5.1.3 Pervasive Players
14.5.1.4 Participants
Figure 37 Aircraft Micro Turbine Engines Market (Global) Company Evaluation Matrix, 2021
14.5.2 Aircraft Micro Turbine Engines Market Competitive Leadership Mapping (Sme)
14.5.2.1 Progressive Companies
14.5.2.2 Responsive Companies
14.5.2.3 Starting Blocks
14.5.2.4 Dynamic Companies
Figure 38 Aircraft Micro Turbine Engines Market: Detailed List of Key Startups/Smes
Figure 39 Aircraft Micro Turbine Engines Market: Competitive Benchmarking of Key Startups/Smes
Figure 40 Aircraft Micro Turbine Engines Market (Sme) Competitive Leadership Mapping, 2021
14.6 Competitive Scenario and Trends
14.6.1 Market Evaluation Framework
14.6.2 New Product Launches and Developments
Table 90 New Product Launches and Developments, 2018-2021
14.6.3 Deals
Table 91 Aircraft Micro Turbine Engines Market: Deals, 2018-2021
15 Company Profiles
15.1 Introduction
15.2 Key Players
(Business Overview, Products Offered, Recent Developments, Deals, Analyst's View, Key Strengths/Right to Win, Strategic Choices Made, Weakness/Competitive Threats)*
15.2.1 Raytheon Technologies Corporation
Table 92 Raytheon Technologies Corporation: Business Overview
Figure 41 Raytheon Technologies Corporation: Company Snapshot
Table 93 Raytheon Technologies Corporation: Products Offered
15.2.2 Honeywell International Inc.
Table 94 Honeywell International Inc.: Business Overview
Figure 42 Honeywell International Inc.: Company Snapshot
Table 95 Honeywell International Inc.: Products Offered
Table 96 Honeywell International Inc.: Product Launches
Table 97 Honeywell International Inc.: Deals
15.2.3 Kratos Defense & Security Solutions, Inc.
Table 98 Kratos Defense & Security Solutions Inc.: Business Overview
Figure 43 Kratos Defense & Security Solutions Inc.: Company Snapshot
Table 99 Kratos Defense & Security Solutions Inc.: Products Offered
Table 100 Kratos Defense & Security Solutions Inc.: Deals
15.2.4 Safran Sa
Table 101 Safran Sa.: Business Overview
Figure 44 Safran Sa: Company Snapshot
Table 102 Safran Sa: Products Offered
Table 103 Safran Sa.: Deals
15.2.5 Uav Turbines Inc.
Table 104 Uav Turbines Inc.: Business Overview
Table 105 Uav Turbines Inc.: Products Offered
Table 106 Uav Turbines Inc.: Product Launches
Table 107 Uav Turbines Inc.: Deals
15.2.6 Rolls- Royce Holdings plc.
Table 108 Rolls-Royce Holdings plc: Business Overview
Figure 45 Rolls-Royce Holdings plc.: Company Snapshot
Table 109 Rolls-Royce Holdings plc: Products Offered
Table 110 Rolls-Royce Holdings plc: Deals
15.2.7 Turbotech Sas
Table 111 Turbotech Sas: Business Overview
Table 112 Turbotech Sas: Products Offered
Table 113 Turbotech Sas: Deals
15.2.8 GE Aviation
Table 114 GE Aviation: Business Overview
Figure 46 GE Aviation.: Company Snapshot
Table 115 GE Aviation: Products Offered
15.2.9 Pbs Group
Table 116 Pbs Group: Business Overview
Table 117 Pbs Group: Products Offered
Table 118 Pbs Group: Product Launches
15.2.10 Sentient Blue Technologies
Table 119 Sentient Blue Technologies: Business Overview
15.2.11 Jets Munt Sl
Table 120 Jets Munt Sl: Business Overview
15.3 Other Players
15.3.1 Amt Netherlands Bv
Table 121 Amt Netherlands Bv: Company Overview
15.3.2 Aerodesignworks Gmbh
Table 122 Aerodesignworks Gmbh: Company Overview
15.3.3 Jetcat Americas
Table 123 Jetcat Americas: Company Overview
15.3.4 Stuttgart Engineering Propulsion Technologies
Table 124 Stuttgart Engineering Propulsion Technologies: Company Overview
15.3.5 Hawk Turbine Ab
Table 125 Hawk Turbine Ab: Company Overview
15.3.6 Williams International
Table 126 Williams International: Company Overview
15.3.7 Sierra Turbines, Inc.
Table 127 Sierra Turbines, Inc.: Company Overview
*Details on Business Overview, Products Offered, Recent Developments, Deals, Analyst's View, Key Strengths/Right to Win, Strategic Choices Made, Weakness/Competitive Threats Might Not be Captured in Case of Unlisted Companies.
16 Appendix
16.1 Discussion Guide
16.2 Knowledgestore: The Subscription Portal
16.3 Available Customizations
16.4 Related Reports
16.5 Author Details

Companies Mentioned

  • Aerodesignworks Gmbh
  • AMT Netherlands Bv
  • GE Aviation
  • Hawk Turbine Ab
  • Honeywell International Inc.
  • Jetcat Americas
  • Jets Munt Sl
  • Kratos Defense & Security Solutions, Inc.
  • PBS Group
  • Raytheon Technologies Corporation
  • Rolls- Royce Holdings plc.
  • Safran Sa
  • Sentient Blue Technologies
  • Sierra Turbines, Inc.
  • Stuttgart Engineering Propulsion Technologies
  • Turbotech Sas
  • Uav Turbines Inc.
  • Williams International

Methodology

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Table Information