The global aerospace auxiliary power unit (APU) market is anticipated to reach $3.27 billion by 2020. An APU is crucial for an aircraft as it supplies power on the ground and helps start the engines. The factors shaping the APU market include technological advancements for less emission and low maintenance, advanced materials usag
e, and development of more fuel-efficient APUs. As aircraft markets become mature, the opportunity for apu market growth will increase in developed economies.
The study also mentions the major drivers of the industry. Fuel cell APUs have the potential to benefit airplane efficiency and lower airplane emissions. Fuel cells can be used to power non-critical loads and in-flight entertainment. For onboard power generation on commercial aircraft, fuel cell/gas turbine hybrid APU systems could offer greatly improved efficiency and fuel economy compared to today’s turbine-powered APUs.
A total of 23 figures / charts and two tables are provided in this 61-page report to help in your business decisions. Sample figures with some insights are shown below. To learn the scope of, benefits, companies researched and other details of the apu market report, download the report brochure.'
Due to the lingering effects of the economic downturn, the industry is likely to experience small growth in the short term. Moderate opportunities exist in the long term due to significant trends in demand quantity, consumption, and growth based on various aircraft types, component segments, and so on.
The report discusses that global economic recession had a harmful effect on the apu market. Recent increases in air travel and globalization have accelerated aircraft procurement, which in turn affects growth. In the aerospace industry, a high level of engineering is required, which is a significant challenge. The learning curve is long in aerospace industry, requiring a high level of education and substantial experience.
This study is intended to provide industry leaders with a competitive benchmarking of the global aerospace apu market. As demand for aircraft APU is growing with increase in number of aircraft deliveries, clients may lose the opportunity of finding suitable alliance partners and tremendous growth opportunities present in this aerospace APU market.
This unique report from Lucintel will provide you with valuable information, insights, and tools needed to identify new growth opportunities and operate your business successfully in this market. This report will save hundreds of hours of your own personal research time and will significantly benefit you in expanding your business in this market. In today’s stringent economy, you need every advantage that you can find.
To make business, investment, and strategic decisions, you need timely, useful information. This market report fulfills this core need and is an indispensable reference guide for multinational materials suppliers, product manufacturers, investors, executives, distributors, and many more that operate in this market.
Some of the features of this report:
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Global apu market by aircraft type, by applications, and by region in terms of value and volume in (US $ value and shipment)
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Growth drivers and challenges for apu market
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Regional cost structure (%) of apu market by the key regions of North America, Europe, Asia Pacific, and Rest of the World
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Global apu market profit margin (%)- 2007-2012
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Global apu market trend (2007-2012) & forecast (2013-2020) by aircraft type and by region in (US $ value and shipment)
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Growth opportunities and emerging trends in apu market
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More than 23 figures/charts and two tables are provided in this roughly 61-page report
Table of Contents
1. Executive Summary
2. Global Aerospace Auxiliary Power Unit Market Overview
2.1. Global Aerospace Market
2.2. Global Aerospace APU Market Overview
2.3. Major Players Analysis of Global Aerospace APU Market
2.3.1. Supply Chain of Global Aerospace APU Market
2.3.2. Company Profiling of Major Aerospace APU Market Players
3. Global Aerospace Auxiliary Power Unit Market Analysis: 2012
3.1. Global Aerospace APU Market Analysis
3.2. Global Aerospace APU Market Analysis by Aircraft Type
3.3. Global Aerospace APU Market by Region
4. Global Aerospace Auxiliary Power Unit Market Trend: 2007-2012
4.1. Global Aerospace APU Market Trend Overview: 2007-2012
4.2. Global Aerospace APU Market Trend by Aircraft Type: 2007-2012
4.3. Global Aerospace APU Market Trend by Region: 2007-2012
4.4. Profitability Trend in Global Aerospace APU Market
4.5. Cost Structure of Global Aerospace APU Market
5. Global Aerospace Auxiliary Power Unit Market Forecast: 2013-2020
5.1. Global Aerospace APU Market Forecast Overview: 2013-2020
5.2. Global Aerospace APU Market Forecast by Aircraft Type: 2013-2020
5.3. Global Aerospace APU Market Forecast by Region: 2013-2020
6. Growth Opportunities and Emerging Trends in Global Aerospace Auxiliary Power Unit Market
6.1. Growth Opportunities in Global Aerospace APU Market
6.1.1. Growth Opportunities in Global Aerospace APU Market by Aircraft Type
6.2.2. Growth Opportunities in Global Aerospace APU Market by Various Regions
List of Figures
Chapter 1. Executive Summary
Figure 1.1: Porter’s Five Forces analysis of the global aerospace APU market
Chapter 2. Global Aerospace Auxiliary Power Unit Market Overview
Figure 2.1: Aerospace industry size (2011-2031)
Figure 2.2: Global aircraft demand (2012-2031)
Figure 2.3: Aerospace APU players based on aircraft type
Figure 2.4: Global aerospace APU market supply chain
Chapter 3. Global Aerospace Auxiliary Power Unit Market Analysis: 2012
Figure 3.1: Global aerospace APU market by aircraft type (2012)
Figure 3.2: Global aerospace APU market by region (2012)
Chapter 4. Global Aerospace Auxiliary Power Unit Market Analysis: 2012
Figure 4.1: Global aerospace APU market trend (2007-2012)
Figure 4.2: Global aerospace APU market trend by aircraft (2007-2012)
Figure 4.3: Global aerospace APU market trend by region (2007-2012)
Figure 4.4: Profitability trend in global aerospace APU market: (2007-2012)
Figure 4.5: Cost structure of global aerospace APU Market: (2007-2012)
Figure 4.6: Cost structure trend of North America aerospace APU market: (2007-2012)
Figure 4.7: Cost structure trend of European aerospace APU market: (2007-2012)
Figure 4.8: Cost structure of APAC Aerospace APU Market: (2007-2012)
Figure 4.9: Cost structure trend of ROW aerospace APU Market: (2007-2012)
Chapter 5. Global Aerospace Auxiliary Power Unit Market Analysis: 2012
Figure 5.1: Global aerospace APU market forecast: (2013-2020)
Figure 5.2: Global aerospace APU market forecast by aircraft: (2013-2020)
Figure 5.3: Global aerospace APU market forecast by region: (2013-2020)
Figure 5.4: Key drivers and challenges of global aerospace APU market
Figure 5.5: Factors shaping the outlook for global aerospace APU market
Chapter 6. Global Aerospace Auxiliary Power Unit Market Analysis: 2012
Figure 6.1: Growth opportunities in global aerospace APU market by aircraft type
Figure 6.2: Growth opportunities in global aerospace APU Market by region
Figure 6.3: Emerging trends in global aerospace APU market
Figure 6.4: Unmet needs in global aerospace APU market
List of Tables
Chapter 1. Executive Summary
Table 1.1: Global aerospace APU market parameters and attributes
Chapter 2. Global Aerospace Auxiliary Power Unit Market Overview
Table 2.1: Global aircraft demand by region during 2012-2031 (US $ value and shipment)
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