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Global Sustainable Aviation Fuel Market to reach USD 2987.5 million by 2027.

Global Sustainable Aviation Fuel Market Size study, by Fuel Type (Biofuel, Hydrogen Fuel, Power to Liquid Fuel), Biofuel Manufacturing Technology (Hydroprocessed Fatty Acid Esters and Fatty Acids - Synthetic Paraffinic Kerosene (HEFA-SPK), Fischer Tropsch Synthetic Paraffinic Kerosene (FT-SPK), Synthetic Iso-paraffin from Fermented Hydroprocessed Sugar (HFS-SIP), Fischer Tropsch (FT) Synthetic Paraffinic Kerosene with Aromatics (FT-SPK/A), Alcohol to Jet SPK (ATJ-SPK), Catalytic Hydrothermolysis Jet (CHJ)), Biofuel Blending Capacity (below 30%, 30% to 50%, above 50%), Platform (Commercial Aviation, Military Aviation, Business & General Aviation, Unmanned Aerial Vehicle) and Regional Forecasts 2021-2027

Product Code: CMAM-52710650
Publish Date: 10-09-2021
Page: 200

Global Sustainable Aviation Fuel Market is valued approximately USD 66 million in 2020 and is anticipated to grow with a healthy growth rate of more than 72.4% over the forecast period 2021-2027. The aviation sector is committed to reducing carbon footprints in order to create a sustainable environment and fulfil severe emission regulations. Various players in the aviation sector are adopting alternative solutions such as enhancing aero-engine efficiency through design adjustments, hybrid-electric and all-electric aircraft, renewable jet fuels, and so on. However, when compared to other solutions, adoption of sustainable aviation fuels such as e-fuels, synthetic fuels, green jet fuels, bio jet fuels, and hydrogen fuels is one of the most feasible alternative solutions in terms of socio and economic benefits and contributes significantly to mitigating current and expected future aviation environmental impacts. In addition, because of an increase in air travel, airlines across the aviation sector are extending their commercial fleets. These vast and expanding fleets are driving demand for sustainable aviation fuel as a short- to medium-term option for lowering GHG emissions. For instance, Gevo, Inc. and Trafigura Trading LLC, a wholly-owned subsidiary of Trafigura Group Pte Ltd, signed a binding renewable hydrocarbons buy and sale agreement in August 2020. Trafigura will be able to provide SAF to both domestic and foreign clients, whose demand in low-carbon jet fuel is rising.

The main regions of Asia Pacific, North America, Europe, Latin America, and the Rest of the World are included in the geographical analysis of the worldwide Sustainable Aviation Fuel market. During the projection period, North America is predicted to expand at the fastest CAGR. Countries in North America, such as the United States and Canada, are focusing on different programmes to use renewable aviation fuel to meet the requirement for reduced carbon footprints owing to increased air traffic and flying passengers. The North American market is considered to be one of the strongest demand areas for sustainable aviation fuel due to supporting regulations and measures to reduce aviation emissions. Commercial Aviation Alternative Fuel Initiative (CAAFI), Midwest Aviation Sustainable Biofuels Initiative (MASBI), and Canada’s Biojet Supply Chain Initiative are just a few of the sustainable aviation fuel efforts undertaken by nations in the area, including the United States and Canada.

Major market player included in this report are:
Neste
Gevo
Eni
World Energy
SkyNRG
Fulcrum BioEnergy
Velocys
Aemetis, Inc.
Red Rock Biofuels
SG Preston Company
The objective of the study is to define market sizes of different segments & countries in recent years and to forecast the values to the coming eight years. The report is designed to incorporate both qualitative and quantitative aspects of the industry within each of the regions and countries involved in the study. Furthermore, the report also caters the detailed information about the crucial aspects such as driving factors & challenges which will define the future growth of the market. Additionally, the report shall also incorporate available opportunities in micro markets for stakeholders to invest along with the detailed analysis of competitive landscape and product offerings of key players. The detailed segments and sub-segment of the market are explained below:
By Fuel Type:
Biofuel
Hydrogen Fuel
Power to Liquid Fuel
By Biofuel Manufacturing Technology:
Hydroprocessed Fatty Acid Esters and Fatty Acids – Synthetic Paraffinic Kerosene (HEFA-SPK)
Fischer Tropsch Synthetic Paraffinic Kerosene (FT-SPK)
Synthetic Iso-paraffin from Fermented Hydroprocessed Sugar (HFS-SIP)
Fischer Tropsch (FT) Synthetic Paraffinic Kerosene with Aromatics (FT-SPK/A)
Alcohol to Jet SPK (ATJ-SPK)
Catalytic Hydrothermolysis Jet (CHJ)
By Biofuel Blending Capacity:
Below 30%
30% to 50%
Above 50%
By Platform:
Commercial Aviation
Military Aviation
Business & General Aviation
Unmanned Aerial Vehicle
By Region:
North America
U.S.
Canada
Europe
UK
Germany
France
Spain
Italy
ROE

Asia Pacific
China
India
Japan
Australia
South Korea
RoAPAC
Latin America
Brazil
Mexico
Rest of the World

Furthermore, years considered for the study are as follows:

Historical year – 2018, 2019
Base year – 2020
Forecast period – 2021 to 2027

Target Audience of the Global Sustainable Aviation Fuel Market in Market Study:

Key Consulting Companies & Advisors
Large, medium-sized, and small enterprises
Venture capitalists
Value-Added Resellers (VARs)
Third-party knowledge providers
Investment bankers
Investors

Chapter 1. Executive Summary
1.1. Market Snapshot
1.2. Global & Segmental Market Estimates & Forecasts, 2019-2027 (USD Million)
1.2.1. Sustainable Aviation Fuel Market, by Region, 2019-2027 (USD Million)
1.2.2. Sustainable Aviation Fuel Market, by Fuel Type, 2019-2027 (USD Million)
1.2.3. Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology, 2019-2027 (USD Million)
1.2.4. Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2019-2027 (USD Million)
1.2.5. Sustainable Aviation Fuel Market, by Platform, 2019-2027 (USD Million)
1.3. Key Trends
1.4. Estimation Methodology
1.5. Research Assumption
Chapter 2. Global Sustainable Aviation Fuel Market Definition and Scope
2.1. Objective of the Study
2.2. Market Definition & Scope
2.2.1. Scope of the Study
2.2.2. Industry Evolution
2.3. Years Considered for the Study
2.4. Currency Conversion Rates
Chapter 3. Global Sustainable Aviation Fuel Market Dynamics
3.1. Sustainable Aviation Fuel Market Impact Analysis (2019-2027)
3.1.1. Market Drivers
3.1.1.1. Rising need for reduction in GHG emissions in aviation industry
3.1.1.2. Growing air passenger traffic
3.1.1.3. High fuel efficiency of SAF
3.1.2. Market Challenges
3.1.2.1. Price difference between SAF and conventional jet fuel
3.1.3. Market Opportunities
3.1.3.1. Increasing demand for SAF by airlines over the world
3.1.3.2. Sustainable marine fuel
3.1.3.3. Government initiatives
Chapter 4. Global Sustainable Aviation Fuel Market Industry Analysis
4.1. Porter’s 5 Force Model
4.1.1. Bargaining Power of Suppliers
4.1.2. Bargaining Power of Buyers
4.1.3. Threat of New Entrants
4.1.4. Threat of Substitutes
4.1.5. Competitive Rivalry
4.1.6. Futuristic Approach to Porter’s 5 Force Model (2018-2027)
4.2. PEST Analysis
4.2.1. Political
4.2.2. Economical
4.2.3. Social
4.2.4. Technological
4.3. Investment Adoption Model
4.4. Analyst Recommendation & Conclusion
Chapter 5. Global Sustainable Aviation Fuel Market, by Fuel Type
5.1. Market Snapshot
5.2. Global Sustainable Aviation Fuel Market by Fuel Type, Performance – Potential Analysis
5.3. Global Sustainable Aviation Fuel Market Estimates & Forecasts by Fuel Type 2018-2027 (USD Million)
5.4. Sustainable Aviation Fuel Market, Sub Segment Analysis
5.4.1. Biofuel
5.4.2. Hydrogen Fuel
5.4.3. Power to Liquid Fuel
Chapter 6. Global Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology,
6.1. Market Snapshot
6.2. Global Sustainable Aviation Fuel Market by Biofuel Manufacturing Technology, Performance-Potential Analysis
6.3. Global Sustainable Aviation Fuel Market Estimates & Forecasts by Biofuel Manufacturing Technology, 2018-2027 (USD Million)
6.4. Sustainable Aviation Fuel Market, Sub Segment Analysis
6.4.1. Hydroprocessed Fatty Acid Esters and Fatty Acids – Synthetic Paraffinic Kerosene (HEFA-SPK)
6.4.2. Fischer Tropsch Synthetic Paraffinic Kerosene (FT-SPK)
6.4.3. Synthetic Iso-paraffin from Fermented Hydroprocessed Sugar (HFS-SIP)
6.4.4. Fischer Tropsch (FT) Synthetic Paraffinic Kerosene with Aromatics (FT-SPK/A)
6.4.5. Alcohol to Jet SPK (ATJ-SPK)
6.4.6. Catalytic Hydrothermolysis Jet (CHJ)
Chapter 7. Global Sustainable Aviation Fuel Market, by Biofuel Blending Capacity,
7.1. Market Snapshot
7.2. Global Sustainable Aviation Fuel Market by Biofuel Blending Capacity, Performance-Potential Analysis
7.3. Global Sustainable Aviation Fuel Market Estimates & Forecasts by Biofuel Blending Capacity, 2018-2027 (USD Million)
7.4. Sustainable Aviation Fuel Market, Sub Segment Analysis
7.4.1. Below 30%
7.4.2. 30% to 50%
7.4.3. Above 50%
Chapter 8. Global Sustainable Aviation Fuel Market, by Platform,
8.1. Market Snapshot
8.2. Global Sustainable Aviation Fuel Market by Platform, Performance-Potential Analysis
8.3. Global Sustainable Aviation Fuel Market Estimates & Forecasts by Platform, 2018-2027 (USD Million)
8.4. Sustainable Aviation Fuel Market, Sub Segment Analysis
8.4.1. Commercial Aviation
8.4.2. Military Aviation
8.4.3. Business & General Aviation
8.4.4. Unmanned Aerial Vehicle

Chapter 9. Global Sustainable Aviation Fuel Market, Regional Analysis
9.1. Sustainable Aviation Fuel Market, Regional Market Snapshot
9.2. North America Sustainable Aviation Fuel Market
9.2.1. U.S. Sustainable Aviation Fuel Market
9.2.1.1. Fuel Type breakdown estimates & forecasts, 2018-2027
9.2.1.2. Biofuel Blending Capacity breakdown estimates & forecasts, 2018-2027
9.2.1.3. Platform breakdown estimates & forecasts, 2018-2027
9.2.1.4. Biofuel Manufacturing Technology breakdown estimated & forecasts, 2018-2027
9.2.2. Canada Sustainable Aviation Fuel Market
9.3. Europe Sustainable Aviation Fuel Market Snapshot
9.3.1. U.K. Sustainable Aviation Fuel Market
9.3.2. Germany Sustainable Aviation Fuel Market
9.3.3. France Sustainable Aviation Fuel Market
9.3.4. Spain Sustainable Aviation Fuel Market
9.3.5. Italy Sustainable Aviation Fuel Market
9.3.6. Rest of Europe Sustainable Aviation Fuel Market
9.4. Asia-Pacific Sustainable Aviation Fuel Market Snapshot
9.4.1. China Sustainable Aviation Fuel Market
9.4.2. India Sustainable Aviation Fuel Market
9.4.3. Japan Sustainable Aviation Fuel Market
9.4.4. Australia Sustainable Aviation Fuel Market
9.4.5. South Korea Sustainable Aviation Fuel Market
9.4.6. Rest of Asia Pacific Sustainable Aviation Fuel Market
9.5. Latin America Sustainable Aviation Fuel Market Snapshot
9.5.1. Brazil Sustainable Aviation Fuel Market
9.5.2. Mexico Sustainable Aviation Fuel Market
9.6. Rest of The World Sustainable Aviation Fuel Market

Chapter 10. Competitive Intelligence
10.1. Top Market Strategies
10.2. Company Profiles
10.2.1. Neste
10.2.1.1. Key Information
10.2.1.2. Overview
10.2.1.3. Financial (Subject to Data Availability)
10.2.1.4. Fuel Summary
10.2.1.5. Recent Developments
10.2.2. Gevo
10.2.3. Eni
10.2.4. World Energy
10.2.5. SkyNRG
10.2.6. Fulcrum BioEnergy
10.2.7. Velocys
10.2.8. Aemetis, Inc.
10.2.9. Red Rock Biofuels
10.2.10. SG Preston Company
Chapter 11. Research Process
11.1. Research Process
11.1.1. Data Mining
11.1.2. Analysis
11.1.3. Market Estimation
11.1.4. Validation
11.1.5. Publishing
11.2. Research Attributes
11.3. Research Assumption

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Critical elements of methodology employed for all our studies include:
Data Collection:
To determine the appropriate methods of data collection based on the research objectives, we consider both primary and secondary sources. Primary data collection involves gathering information directly from various industry experts in core and related fields, original equipment manufacturers (OEMs), vendors, suppliers, technology developers, alliances, and organizations. These sources encompass all segments of the value chain within the specific industry. Through in-depth interviews, we engage with key industry participants, subject-matter experts, C-level executives of major market players, industry consultants, and other relevant experts. This allows us to obtain and validate critical qualitative and quantitative information while evaluating market prospects. AI and Big Data are instrumental in our primary research, providing us with powerful tools to collect, analyze, and derive insights from data efficiently. These technologies contribute to the advancement of research methodologies, enabling us to make data-driven decisions and uncover valuable findings.
In addition to primary sources, we extensively utilize secondary sources to enhance our research. These include directories, databases, journals focusing on related industries, company newsletters, and information portals such as Bloomberg, D&B Hoovers, and Factiva. These secondary sources enable us to identify and gather valuable information for our comprehensive, technical, market-oriented, and commercial study of the market. Additionally, we utilize AI algorithms to automate the collection of vast amounts of data from various sources such as surveys, social media platforms, online transactions, and web scraping. And employ Big Data technologies for storage and processing of large datasets, ensuring that no valuable information is missed during the data collection process.
Data Analysis:
Our team of experts carefully examine the gathered data using suitable statistical techniques and qualitative analysis methods. For quantitative analysis, we employ descriptive statistics, regression analysis, and other advanced statistical methods, depending on the characteristics of the data. This analysis may also incorporate the utilization of AI tools and big data analysis techniques to extract meaningful insights.
To ensure the accuracy and reliability of our findings, we extensively leverage data science techniques, which help us minimize discrepancies and uncertainties in our analysis. We employ Data Science to clean and preprocess the data, ensuring its quality and reliability. This involves handling missing data, removing outliers, standardizing variables, and transforming data into suitable formats for analysis. The application of data science techniques enhances our accuracy, efficiency, and depth of analysis, enabling us to stay competitive in dynamic market environments.
Market Size Estimation:
Our proprietary data tools play a crucial role in deriving our market estimates and forecasts. Each study involves the creation of a unique and customized model. The model incorporates the gathered information on market dynamics, technology landscape, application development, and pricing trends. AI techniques, such as machine learning and deep learning, aid us to analyze patterns within the data to identify correlations, trends, and relationships. By recognizing patterns in consumer behavior, purchasing habits, or market dynamics, our AI algorithms aid us in more precise estimations of market size. These factors are simultaneously analyzed within the model, allowing for a comprehensive assessment. To quantify their impact over the forecast period, correlation, regression, and time series analysis are employed.
To estimate and validate the market size, we employ both top-down and bottom-up approaches. The preference is given to a bottom-up approach, where key regional markets are analyzed as separate entities. This data is then integrated to obtain global estimates. This approach is crucial as it provides a deep understanding of the industry and helps minimize errors.
In our forecasting process, we consider various parameters such as economic tools, technological analysis, industry experience, and domain expertise. By taking all these factors into account, we strive to produce accurate and reliable market forecasts. When forecasting, we take into consideration several parameters, which include:
Market driving trends and favorable economic conditions
Restraints and challenges that are expected to be encountered during the forecast period.
Anticipated opportunities for growth and development
Technological advancements and projected developments in the market
Consumer spending trends and dynamics
Shifts in consumer preferences and behaviors.
The current state of raw materials and trends in supply versus pricing
Regulatory landscape and expected changes or developments.
The existing capacity in the market and any expected additions or expansions up to the end of the forecast period.
To assess the market impact of these parameters, we assign weights to each one and utilize weighted average analysis. This process allows us to quantify their influence on the market and derive an expected growth rate for the forecasted period. By considering these various factors and applying a weighted analysis approach, we strive to provide accurate and reliable market forecasts.
Insight Generation & Report Presentation:
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