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Global Sustainable Aviation Fuel Market by Fuel Type (Biofuel, Hydrogen Fuel, Power to Liquid Fuel, Gas to Liquid), Biofuel Manufacturing Technology (FT-SPK, HEFA-SPK, ATJ-SPK, HFS-SIP, CHJ), Biofuel Blending Capacity, Platform, Region - Forecast to 2030

  • ID: 5178303
  • Report
  • February 2022
  • Region: Global
  • 247 Pages
  • Markets and Markets
Inadequate Availability of Feedstock and Refineries to Meet Saf Production Demand

FEATURED COMPANIES

  • Aemetis
  • Bp
  • Hypoint Inc.
  • Omv
  • Prometheus Fuels
  • Sg Preston
The sustainable aviation fuel market is projected to grow from USD 219 million in 2021 to USD 15,716 million by 2030, at a CAGR of 60.8% during the forecast period. This growth can be attributed to factors, such as the increasing need for reduction in GHG emissions in the aviation industry, increasing air passenger traffic, the high fuel efficiency of renewable jet fuel.



The sudden outbreak of COVID-19 has adversely impacted the aviation sector in 2020. The immediate lockdown in various nations across the globe bans on domestic and international flights during the lockdown, air travel restrictions on non-essential travel, temporary halts in production and manufacturing activities, and limited workforce as per new government norms to prevent the spread of the disease have led to delays in the deliveries of aircraft in the first and second quarter of 2020 as well as delays in the research and development activities.

Broader use of sustainable aviation fuels is one important component of the industry’s strategy to lower its climate impact. However, significant expansion in the use of sustainable aviation fuels, efficiency upgrades to the fleet is expected to delay with uncertainty. Much of the industry will likely defer acquiring new aircraft containing technology improvements until demand is stronger, the solvency of the carriers is assured, and the price of jet fuel exerts pressure to add fuel-saving evolutionary technologies to the fleet. Unfortunately, initiatives to develop and begin using bio jet fuels, green fuels, e-fuels, synthetic fuels, etc. with life cycle CO2 emissions that can be up to 80% less carbon-intensive than fossil-based jet fuel will likely be delayed. Before the coronavirus pandemic, a major barrier to the rapid establishment of a SAF industry was the significantly higher costs of SAF compared to conventional jet fuel. According to the Environmental and Energy Study Institute (EESI), with oil prices recently falling below zero and still very low, and jet fuel demand in the first quarter 47% below last year’s first quarter, jet fuel prices fell more than 65% by the 20th April 2020. The investments required to transition aviation to a bio-fueled industry are unlikely to materialize until commercial aviation recovers and conventional jet fuel prices increase.

Based on fuel type, the biofuel segment is estimated to lead the sustainable aviation fuel market during the forecast period

Based on fuel type, the biofuel segment of the sustainable aviation fuel market is accounted for the largest share during the forecast period. The greatest potential of biofuel lies in its ability to significantly reduce GHG emissions in the aviation sector and positively impact climate change. The strong and ongoing commitment of the aviation sector and the active involvement of an increasing number of stakeholders such as airlines and many aviation organizations to develop biofuel through voluntary initiatives have been a major driving force behind biofuel development and consumption. The production of biofuel is expected to scale up rapidly in the coming decade due to rapid developments in technological pathways to commercialize the use of alternative jet fuel.

Based on biofuel manufacturing technology, the hydroprocessed fatty acid esters and fatty acids - synthetic paraffinic kerosene (HEFA-SPK) segment is estimated to lead the sustainable aviation fuel market in 2020

Based on biofuel manufacturing technology, the hydroprocessed fatty acid esters and fatty acids - synthetic paraffinic kerosene (HEFA-SPK) segment of the sustainable aviation fuel market is expected to grow at the highest CAGR during the forecast period. The development and deployment of bio-jet fuels, primarily HEFA bio-jet, has progressed from single demonstration flights by airlines or equipment manufacturers to multi-stakeholder supply-chain initiatives including equipment manufacturers, airlines, fuel producers and airports. This growth can be attributed to the technologically being most commercially available for the production of sustainable aviation fuel.

Based on biofuel blending capacity, the 30% to 50% segment is expected to grow at the highest CAGR during the forecast period

Based on biofuel blending capacity, the 30% to 50% segment of the sustainable aviation fuel market is expected to grow at the highest CAGR during the forecast period. The moderate blend capacity, drop-in facility in existing fuel systems, supply logistics infrastructure, and aircraft fleet allows to minimize the overall cost and cater to the volume demands from commercial and military aviation.

Based on platform, the commercial aviation segment is estimated to lead the sustainable aviation fuel market during the forecast period

Based on the platform, the commercial aviation segment of the sustainable aviation fuel market is accounted for the largest share during the forecast period. The growth of this segment can be attributed to the increase in the aircraft fleet of emerging economies in the commercial aviation sectors. The initiatives taken by the various commercial airlines, commercial airports, and aircraft manufacturers across the globe in the adoption of renewable jet fuel is driving the growth of this segment in the sustainable aviation fuel market.

North America is estimated to lead the sustainable aviation fuel market in 2020

The North American market has been studied for the US and Canada. North America is considered to have the largest aircraft fleet with a large number of passengers per year, leading to an increase in aircraft emissions substantially. To cater to the need for reduction in carbon footprints due to increasing air traffic and air passengers, the US and Canada are focused on various initiatives to utilize sustainable aviation fuel. With supportive policies and initiatives to decarbonize aviation emissions, the North American market is deemed to be one of the strong demand centres for sustainable aviation fuel. Switching to more energy-dense biofuel to reach the goal of decarbonizing the aviation sector is expected to play a significant role in reducing GHG concentration across the region.

Break-up of profile of primary participants in the sustainable aviation fuel market:

  • By Company Type: Tier 1 - 20%, Tier 2 - 55%, and Tier 3 - 25% 
  • By Designation: C Level - 50%, Director Level - 25%, and Others c 25% 
  • By Region: North America - 60%, Europe - 20%, Asia Pacific - 10%, South America - 5%, and RoW - 5%

Major players operating in the renewable jet fuel market include Neste (Finland), TotalEnergies (France), World Energy (US), Fulcrum BioEnergy (US), and LanzaTech (US) among others. Some of the startup companies in the sustainable aviation fuel market include Preem (Sweden), OMV (Austria), Atmosfair (Germany), Wastefuel (US), Prometheus Fuels (US) Red Rocks Biofuel (US), Northwest Advanced Biofuels (Austria). These startups are collaborating with various stakeholders of the aviation fuel industry to contribute towards the ambitious goals of GHG emission reductions from the aviation and other industrial sectors.

Research Coverage:


This research report categorizes the sustainable aviation fuel market on the basis of fuel type (biofuel, hydrogen fuel, and power-to-liquid, Gas-To-Liquid), Fischer-Tropsch synthetic paraffinic kerosene (FT-SPK), hydroprocessed esters & fatty acids (HEFA-SPK), synthetic isoparaffin from fermented hydroprocessed sugar (HFS-SIP), Fischer-Tropsch (FT) synthetic kerosene with aromatics (FT-SKA), alcohol-to-jet synthetic paraffinic kerosene (ATJ-SPK), and catalytic hydrothermolysis jet (CHJ). Biofuel blending capacity (below 30%, 30% to 50%, and above 50%.), and platform (commercial aviation, military aviation, business & general aviation, and unmanned aerial vehicle). These segments have been mapped across major regions, namely, North America, Europe, Asia Pacific, Middle East, Latin America, and Africa. The scope of the report covers detailed information regarding the major factors, such as drivers, restraints, challenges, and opportunities, influencing the growth of the sustainable aviation fuel market. A detailed analysis of the key industry players has been done to provide insights into their business overviews; solutions and services; key strategies; new product launches; mergers; partnerships, agreements, and collaborations; and recent developments associated with the sustainable aviation fuel market. In addition, the startups in the sustainable aviation fuel market ecosystem are covered in this report to provide usable insights and developments happening in the emerging market of sustainable aviation fuel.

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 sustainable aviation fuel market and the subsegments. 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 sustainable aviation fuel offered by the top players in the market
  • Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product launches, contracts, agreements, and expansion plans in the sustainable aviation fuel market
  • Market Development: Comprehensive information about lucrative markets - the report analyzes the sustainable aviation fuel market across varied regions
  • Market Diversification: Exhaustive information about new products, untapped geographies, recent developments, and investments in the sustainable aviation fuel market  
  • Competitive Assessment: In-depth assessment of market shares, growth strategies, products, and manufacturing capabilities of leading players in the sustainable aviation fuel market
Frequently Asked Questions about the Sustainable Aviation Fuel Market

What is the estimated value of the Sustainable Aviation Fuel Market?

The Sustainable Aviation Fuel Market was estimated to be valued at $219.0 Million in 2021.

What is the growth rate of the Sustainable Aviation Fuel Market?

The growth rate of the Sustainable Aviation Fuel Market is 60.8%, with an estimated value of $15716.0 Million by 2030.

What is the forecasted size of the Sustainable Aviation Fuel Market?

The Sustainable Aviation Fuel Market is estimated to be worth $15716.0 Million by 2030.

Who are the key companies in the Sustainable Aviation Fuel Market?

Key companies in the Sustainable Aviation Fuel Market include Aemetis, Alder Fuels, Atmosfair, Bp, Fulcrum Bioenergy, Gevo, Hypoint Inc., Lanzatech and Northwest Advanced Biofuels.

FEATURED COMPANIES

  • Aemetis
  • Bp
  • Hypoint Inc.
  • Omv
  • Prometheus Fuels
  • Sg Preston

1 Introduction
1.1 Objectives of the Study
1.2 Market Definition
1.3 Market Scope
1.3.1 Markets Covered
1.3.2 Regional Scope
1.3.3 Years Considered for the Study
1.4 Currency & Pricing
Table 1 USD Exchange Rates
1.5 Limitations
1.6 Market Stakeholders
1.7 Summary of Changes
2 Research Methodology
2.1 Research Data
2.1.1 Research Flow
Figure 1 Research Design
2.1.2 Secondary Data
2.1.2.1 Secondary Sources
2.1.3 Primary Data
2.1.3.1 Primary Sources
2.1.3.2 Breakdown of Primary Interviews
Figure 2 Breakdown of Primary Interviews: by Company Type, Designation, and Region
Table 2 Primary Interviewees Details
2.2 Demand- and Supply-Side Indicator Analysis
2.2.1 Demand-Side Indicators
2.2.1.1 Adoption Rate of Saf by Airlines and Airports due to Stringent Regulations
2.2.1.2 Increase in Air Traffic Across the Globe
2.2.1.3 Development of Technological Pathways and High Blending Capacity Approvals
2.2.2 COVID-19 Impact on Sustainable Aviation Fuel Market
2.3 Market-Size Estimation
2.3.1 Bottom-Up Approach
Figure 3 Market Size Estimation: Bottom-Up Approach (Supply Side)
2.3.2 Top-Down Approach
Figure 4 Market Size Estimation: Top-Down Approach
2.4 Market Breakdown and Data Triangulation
Figure 5 Data Triangulation Methodology
2.5 Growth Rate Assumptions
2.5.1 Insights from Industry Experts
2.6 Assumptions
2.7 Risks
3 Executive Summary
Figure 6 Biofuel Segment Projected to Lead the Market During Forecast Period
Figure 7 Ft-Spk Segment Projected to Lead the During Forecast Period
Figure 8 30% to 50% Segment Expected to Have Highest CAGR During Forecast Period
Figure 9 Military Aviation Expected to Have Second Highest CAGR During Forecast Period
4 Premium Insights
4.1 Attractive Opportunities in Sustainable Aviation Fuel Market
Figure 10 Demand for Co2 and Ghg Emission Reduction Will Drive the Market
4.2 Sustainable Aviation Fuel Market, by Region
Figure 11 North America Estimated to Account for Largest Share of Market in 2021
4.3 Asia-Pacific Sustainable Aviation Fuel Market, by Country
Figure 12 China Estimated to Account for Largest Share of Market in 2021
4.4 Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology
Figure 13 Hefa-Spk Segment to Account for Largest Share of Market in 2021
4.5 Sustainable Aviation Fuel Market, by Region
Figure 14 Middle East to Register Highest CAGR During Forecast Period
5 Market Overview
5.1 Introduction
5.2 Market Dynamics
Figure 15 Sustainable Aviation Fuel Market: Drivers, Restraints, Opportunities, and Challenges
5.2.1 Drivers
5.2.1.1 Increasing Need for Reduction in Ghg Emissions
Figure 16 Comparison of Climate Impact from Hydrogen Propulsion and Synfuel, 2050
5.2.1.2 Increasing Air Passenger Traffic
Figure 17 Co2 Emissions, by Aircraft Type and Range, 2018
5.2.1.3 High Fuel Efficiency of Saf
5.2.2 Restraints
5.2.2.1 Inadequate Availability of Feedstock and Refineries to Meet Saf Production Demand
5.2.2.2 Price Difference Between Saf and Conventional Jet Fuels
5.2.3 Opportunities
5.2.3.1 Rising Demand for Saf by Airlines Across the Globe
Table 3 Airports Having Sustainable Aviation Fuel Blending and Supply Facility
5.2.3.2 Drop-In Capability of Saf Increases Its Demand to Reduce Carbon Footprint
5.2.3.3 Government Initiatives Such as Tax Reduction on Aviation Fuel
5.2.4 Challenges
5.2.4.1 Increased Cost of Saf Increases Operating Cost of Airlines
5.2.4.2 Inconsistency in Techno-Economic Analysis (Tea) and Lifecycle Analysis (Lca)
5.2.4.3 Huge Investments Required in Approval and Certification of Saf
5.2.4.4 Large Quantity of Saf Must be Produced to Increase Fuel Blends
5.3 Ranges and Scenarios
Figure 18 Impact of COVID-19 on the Market: Global Scenarios
5.4 Impact of COVID-19 on Sustainable Aviation Fuel Market
Figure 19 Impact of COVID-19 on Sustainable Aviation Fuel Market
5.4.1 Demand-Side Impact
5.4.1.1 Key Developments from January 2020 to December 2021
Table 4 Key Developments in the Sustainable Aviation Fuel Market 2020-2021
5.4.2 Supply-Side Impact
5.4.2.1 Key Developments from January 2020 to December 2021
Table 5 Key Developments in the Sustainable Aviation Fuel Market 2020-2021
5.5 Trends/Disruptions Impacting Customer's Business
5.5.1 Revenue Shift and New Revenue Pockets for Sustainable Aviation Fuel Market
Figure 20 Revenue Shift in Sustainable Aviation Fuel Market
5.6 Tariff and Regulatory Landscape
Table 6 Policies and Measures for Introduction of Sustainable Aviation Fuel
5.7 Average Selling Price Trend
Table 7 Average Selling Price: Aviation Fuel
5.8 Value Chain Analysis
Figure 21 Value Chain Analysis: Sustainable Aviation Fuel Market
5.8.1 Feedstock Producers and Traders
5.8.2 Saf Technology Providers
5.8.3 Saf Producers
5.8.4 Oems and Regulation Authorities
5.8.5 Saf Distributors
5.8.6 Airports and Airlines
5.9 Sustainable Aviation Fuel Market Ecosystem
5.9.1 Prominent Companies
5.9.2 Private and Small Enterprises
5.9.3 End-users
Figure 22 Sustainable Aviation Fuel Market Ecosystem Map
Table 8 Sustainable Aviation Fuel Market Ecosystem
5.10 Technology Analysis
5.10.1 Improved Engine Technologies and Aircraft Design
5.10.2 New Composite Lightweight Materials
5.10.3 Hybrid Electric Propulsion
5.10.4 Electro Fuels
5.11 Use Case Analysis
5.11.1 Offtake Agreements
5.11.2 Sunfire E-Crude to Produce E-Fuel
5.11.3 Chemical Plant by Ineratec GmbH for Power-To Liquid Technology
5.11.4 Green Propellant Infusion
5.12 Porter's Five Forces Analysis
Table 9 Sustainable Aviation Fuel Market: Porter's Five Forces Analysis
Figure 23 Key Sustainable Aviation Fuel Market: Porter's Five Force Analysis
5.12.1 Threat of New Entrants
5.12.2 Threat of Substitutes
5.12.3 Bargaining Power of Suppliers
5.12.4 Bargaining Power of Buyers
5.12.5 Degree of Competition
5.13 Volume Data
Table 10 Sustainable Aviation Fuel Offtake Agreements Per Fuel Producer (2015-2021).
Table 11 Sustainable Aviation Fuel Offtake Agreements Per Fuel Purchaser (2015-2021)
6 Industry Trends
6.1 Introduction
6.2 Organizations Involved in Sustainable Aviation Fuel Programs
6.2.1 Sustainable Aviation Fuel Users Group
6.2.2 Initiatives by International Air Transport Association Members
6.2.3 Commercial Aviation Alternative Fuels Initiative
6.2.4 Nordic & Nisa Initiatives for Sustainable Aviation
6.2.5 Air Transport Action Group
6.2.6 International Civil Aviation Organization
6.2.7 International Renewable Energy Agency
6.3 Technology Trends
6.3.1 Hydrothermal Liquefaction
6.3.2 Pyrolysis
6.4 Supply Chain Analysis
6.4.1 Major Companies
6.4.2 Small and Medium Enterprises
6.4.3 End-users
6.5 Emerging Industry Trends
6.5.1 Alcohol-To-Jet (Atj)
6.5.2 Hycogen
6.5.3 Fischer-Tropsch (Ft)
6.6 Supply Chain Analysis
Figure 24 Supply Chain Analysis
6.7 Impact of Megatrends
6.8 Innovation & Patent Registration
7 Sustainable Aviation Fuel Market, by Fuel Type
7.1 Introduction
Figure 25 Sustainable Aviation Fuel Market, by Fuel Type, 2021 & 2030 (USD Million)
Table 12 Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 13 Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 14 Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (Million Liters)
Table 15 Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (Million Liters)
7.2 Biofuel
7.2.1 Drop-In Capability with No Changes in Infrastructure of Aircraft to Drive Demand
7.3 Hydrogen Fuel
7.3.1 Advantage of Being True Zero-Carbon Solution to Drive Demand
Table 16 Current Hydrogen-Powered Aircraft Developments
7.4 Power-To-Liquid
7.4.1 Benefits Like Very Low Lifecycle Emissions to Drive Future Demand
7.5 Gas-To-Liquid
7.5.1 Technological Advancements to Drive Future Demand
8 Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology
8.1 Introduction
Figure 26 Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology, 2021 & 2030 (USD Million)
Table 17 Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology, 2018-2020 (USD Million)
Table 18 Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology, 2021-2030 (USD Million)
Table 19 Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology, 2018-2020 (Million Liters)
Table 20 Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology, 2021-2030 (Million Liters)
8.2 Fischer Tropsch - Synthetic Paraffinic Kerosene (Ft-Spk)
8.2.1 Adoption on Commercial Scale for Production of Saf to Drive Demand
8.3 Hydroprocessed Esters and Fatty Acids - Synthetic Paraffinic Kerosene (Hefa-Spk)
8.3.1 High Emission Reduction Potential to Drive Demand
8.4 Synthetic Iso-Paraffin from Fermented Hydroprocessed Sugar (Hfs-Sip)
8.4.1 R&D Initiatives to Increase Blend Capacity to Drive Demand
8.5 Alcohol-To-Jet Spk (Atj-Spk)
8.5.1 High Blend Capacity to Drive Demand
8.6 Catalytic Hydrothermolysis Jet (Chj)
8.6.1 Requirement of Large Volumes of Alternative Jet Fuel to Drive Demand
9 Sustainable Aviation Fuel Market, by Biofuel Blending Capacity
9.1 Introduction
Figure 27 Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021 & 2030 (USD Million)
Table 21 Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 22 Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
Table 23 Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (Million Liters)
Table 24 Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (Million Liters)
9.2 Below 30%
9.2.1 Need to Decrease Dependency on Petroleum Fuels to Drive Demand
9.3 30% to 50%
9.3.1 Need for Reduction of Carbon Footprint in Aviation Sector to Drive Demand
9.4 Above 50%
9.4.1 R&D in Technological Pathways to Drive Demand
10 Sustainable Aviation Fuel Market, by Platform
10.1 Introduction
10.2 Impact of COVID-19 on Platforms of Sustainable Aviation Fuel Market
10.2.1 Most Impacted Platform Segment
10.2.1.1 Commercial Aviation
10.2.1.2 Business & General Aviation
10.2.2 Least Impacted Platform Segment
10.2.2.1 Military Aviation
Table 25 Boeing Military Aircraft Deliveries, 2019 Vs. 2020
Figure 28 Sustainable Aviation Fuel Market, by Platform, 2021 & 2030 (USD Million)
Table 26 Sustainable Aviation Fuel Market, by Platform, 2018-2020 (USD Million)
Table 27 Sustainable Aviation Fuel Market, by Platform, 2021-2030 (USD Million)
Table 28 Sustainable Aviation Fuel Market, by Platform, 2018-2020 (Million Liters)
Table 29 Sustainable Aviation Fuel Market, by Platform, 2021-2030 (Million Liters)
10.3 Commercial Aviation
10.3.1 Growing Concerns Over Reduction of Carbon Footprint in Aviation Sector is Driving the Segment
10.4 Narrow-Body Aircraft (Nba)
10.4.1 High Efficiency in Short-Haul Travel to Drive the Segment
10.5 Wide-Body Aircraft (Wba)
10.5.1 Increasing Focus of Airlines on Long-Haul Routes to Drive the Segment
10.6 Very Large Aircraft (Vla)
10.6.1 Initiatives by Airlines to Drive the Segment
10.7 Regional Transport Aircraft (Rta)
10.7.1 Rising Domestic Air Passenger Traffic in Emerging Economies to Drive the Segment
10.8 Military Aviation
10.8.1 Fighter Jets
10.8.1.1 Growing Procurement of Fighter Jets due to Increasing Military Budgets to Drive the Segment
10.8.2 Transport Aircraft
10.8.2.1 Increasing Use of Transport Aircraft in Military Operations to Drive the Segment
10.8.3 Military Helicopters
10.8.3.1 Increasing Use of Helicopters in Combat and Search & Rescue Operations to Drive the Segment
10.9 Business & General Aviation
10.9.1 Business Jets
10.9.1.1 Rising Number of Private Aviation Companies Across the Globe to Drive the Segment
10.9.2 Commercial Helicopters
10.9.2.1 Increasing Demand for Helicopters in Corporate and Civil Applications to Drive the Segment
10.9.3 Ultralight & Light Aircraft
10.9.3.1 Several Ongoing Projects to Develop Hydrogen Fuel Cell Aircraft to Drive the Segment
10.10 Unmanned Aerial Vehicle (Uav)
10.10.1 Commercial Unmanned Aerial Vehicle
10.10.1.1 Several Ongoing Projects to Develop Hydrogen Fuel Cell Aircraft to Drive the Segment
10.10.2 Military Unmanned Aerial Vehicle
10.10.2.1 Increasing Use in Defense Applications to Drive the Segment
11 Regional Analysis
11.1 Introduction
Figure 29 North America Estimated to Account for Largest Share of the Market in 2021
Table 30 Sustainable Aviation Fuel Market, by Region, 2018-2020 (USD Million)
Table 31 Sustainable Aviation Fuel Market, by Region, 2021-2030 (USD Million)
11.2 North America
11.2.1 COVID-19 Restrictions in North America
11.2.2 PESTLE Analysis: North America
Figure 30 North America: Sustainable Aviation Fuel Market Snapshot
Table 32 North America: Sustainable Aviation Fuel Market, by Country, 2018-2020 (USD Million)
Table 33 North America: Sustainable Aviation Fuel Market, by Country, 2021-2030 (USD Million)
Table 34 North America: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 35 North America: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 36 North America: Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology, 2018-2020 (USD Million)
Table 37 North America: Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology, 2021-2030 (USD Million)
Table 38 North America: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 39 North America: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
Table 40 North America: Sustainable Aviation Fuel Market, by Platform, 2018-2020 (USD Million)
Table 41 North America: Sustainable Aviation Fuel Market, by Platform, 2021-2030 (USD Million)
11.2.3 US
11.2.3.1 Growing Concerns Over Carbon Emissions due to Increasing Air Traffic to Drive the Market
Table 42 US: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 43 US: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 44 US: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 45 US: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.2.4 Canada
11.2.4.1 Innovations Focused on Lowering Carbon Footprint to Drive Market
Table 46 Canada: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 47 Canada: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 48 Canada: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 49 Canada: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.3 Europe
11.3.1 COVID-19 Restrictions in Europe
11.3.2 PESTLE Analysis: Europe
Figure 31 Europe: Sustainable Aviation Fuel Market Snapshot
Table 50 Europe: Sustainable Aviation Fuel Market, by Country, 2018-2020 (USD Million)
Table 51 Europe: Sustainable Aviation Fuel Market, by Country, 2021-2030 (USD Million)
Table 52 Europe: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 53 Europe: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 54 Europe: Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology, 2018-2020 (USD Million)
Table 55 Europe: Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology, 2021-2030 (USD Million)
Table 56 Europe: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 57 Europe: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
Table 58 Europe: Sustainable Aviation Fuel Market, by Platform, 2018-2020 (USD Million)
Table 59 Europe: Sustainable Aviation Fuel Market, by Platform, 2021-2030 (USD Million)
11.3.3 Germany
11.3.3.1 Advancements in Technological Pathways to Drive the Market
Table 60 Germany: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 61 Germany: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 62 Germany: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 63 Germany: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.3.4 UK
11.3.4.1 Presence of Saf Manufacturers to Drive the Market
Table 64 UK: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 65 UK: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 66 UK: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 67 UK: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.3.5 France
11.3.5.1 Initiatives on Low Carbon Strategy from Global Leaders to Drive the Market
Table 68 France: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 69 France: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 70 France: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 71 France: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.3.6 Denmark
11.3.6.1 Stringent Standards for Reduction in Carbon Emissions to Drive the Market
Table 72 Denmark: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 73 Denmark: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 74 Denmark: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 75 Denmark: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.3.7 Finland
11.3.7.1 Long-Term Initiatives to Advance Technologies and Produce E-Fuels to Drive the Market
Table 76 Finland: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 77 Finland: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 78 Finland: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 79 Finland: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.3.8 Rest of Europe
Table 80 Rest of Europe: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 81 Rest of Europe: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 82 Rest of Europe: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 83 Rest of Europe: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.4 Asia-Pacific
11.4.1 Asia-Pacific COVID-19 Restrictions
11.4.2 PESTLE Analysis: Asia-Pacific
Figure 32 Asia-Pacific: Sustainable Aviation Fuel Market Snapshot
Table 84 Asia-Pacific: Sustainable Aviation Fuel Market, by Country, 2018-2020 (USD Million)
Table 85 Asia-Pacific: Sustainable Aviation Fuel Market, by Country, 2021-2030 (USD Million)
Table 86 Asia-Pacific: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 87 Asia-Pacific: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 88 Asia-Pacific: Sustainable Aviation Fuel Market, by Biofuel Manufactruing Technology, 2018-2020 (USD Million)
Table 89 Asia-Pacific: Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology, 2021-2030 (USD Million)
Table 90 Asia-Pacific: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 91 Asia-Pacific: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
Table 92 Asia-Pacific: Sustainable Aviation Fuel Market, by Platform, 2018-2020 (USD Million)
Table 93 Asia-Pacific: Sustainable Aviation Fuel Market, by Platform, 2021-2030 (USD Million)
11.4.3 India
11.4.3.1 Need to Combat Climate Change due to Rising Air Passenger Traffic to Drive the Market
Table 94 India: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 95 India: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 96 India: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 97 India: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.4.4 Australia
11.4.4.1 Initiatives for Development and Introduction of Commercial Supply Chains of Saf to Drive the Market
Table 98 Australia: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 99 Australia: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 100 Australia: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 101 Australia: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.4.5 South Korea
11.4.5.1 Initiatives for Low Carbon Strategy to Drive the Market
Table 102 South Korea: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 103 South Korea: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 104 South Korea: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 105 South Korea: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.4.6 Japan
11.4.6.1 Investments in Using Blended Bio-Based and Conventional Jet Fuel to Drive the Market
Table 106 Japan: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 107 Japan: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 108 Japan: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 109 Japan: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.4.7 Chinaa
11.4.7.1 Collaborations Between Chinese Airlines, Airframe Manufacturers, and Biofuel Producers to Drive the Market
Table 110 China: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 111 China: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 112 China: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 113 China: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.4.8 Singapore
11.4.8.1 Presence of Oil & Gas Multinationals to Drive the Market
Table 114 Singapore: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 115 Singapore: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 116 Singapore: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 117 Singapore: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.4.9 Rest of APAC
Table 118 Rest of APAC: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 119 Rest of APAC: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 120 Rest of APAC: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 121 Rest of APAC: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.5 Middle East
11.5.1 Middle East: COVID-19 Impact
11.5.2 PESTLE Analysis: Middle East
Figure 33 Middle East: Sustainable Aviation Fuel Market Snapshot
Table 122 Middle East: Sustainable Aviation Fuel Market, by Country, 2018-2020 (USD Million)
Table 123 Middle East: Sustainable Aviation Fuel Market, by Country, 2021-2030 (USD Million)
Table 124 Middle East: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 125 Middle East: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 126 Middle East: Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology, 2018-2020 (USD Million)
Table 127 Middle East: Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology, 2021-2030 (USD Million)
Table 128 Middle East: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 129 Middle East: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
Table 130 Middle East: Sustainable Aviation Fuel Market, by Platform, 2018-2020 (USD Million)
Table 131 Middle East: Sustainable Aviation Fuel Market, by Platform, 2021-2030 (USD Million)
11.5.3 UAE
11.5.3.1 New Initiatives on Sustainability to Drive the Market
Table 132 UAE: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 133 UAE: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 134 UAE: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million
Table 135 UAE: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.5.4 Bahrain
11.5.4.1 Growing Concerns Over Climate Change to Drive the Market
Table 136 Bahrain: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 137 Bahrain: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 138 Bahrain: Sustainable Aviation Fuel Market, by Biofuel Blending, 2018-2020 (USD Million)
Table 139 Bahrain: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.5.5 Qatar
11.5.5.1 Collaborations Between Airlines, Aircraft & Engine Manufacturers, Oil & Gas Industry, and Research Institutes to Drive the Market
Table 140 Qatar: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 141 Qatar: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 142 Qatar: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 143 Qatar: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.6 Latin America
11.6.1 Latin America: COVID-19 Impact
11.6.2 PESTLE Analysis: Latin America
Figure 34 Latin America: Sustainable Aviation Fuel Market Snapshot
Table 144 Latin America: Sustainable Aviation Fuel Market, by Country, 2018-2020 (USD Million)
Table 145 Latin America: Sustainable Aviation Fuel Market, by Country, 2021-2030 (USD Million)
Table 146 Latin America: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 147 Latin America: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 148 Latin America: Sustainable Aviation Fuel Market, by Biofuel Manufactruing Technology, 2018-2020 (USD Million)
Table 149 Latin America: Sustainable Aviation Fuel Market, by Biofuel Manufacturing Technology, 2021-2030 (USD Million)
Table 150 Latin America: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 151 Latin America: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
Table 152 Latin America: Sustainable Aviation Fuel Market, by Platform, 2018-2020 (USD Million)
Table 153 Latin America: Sustainable Aviation Fuel Market, by Platform, 2021-2030 (USD Million)
11.6.3 Brazil
11.6.3.1 Ghg Reduction Initiatives to Drive the Market
Table 154 Brazil: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 155 Brazil: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 156 Brazil: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 157 Brazil: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
11.6.4 Mexico
11.6.4.1 Aviation Biofuel Initiatives by the Government to Drive the Market
Table 158 Mexico: Sustainable Aviation Fuel Market, by Fuel Type, 2018-2020 (USD Million)
Table 159 Mexico: Sustainable Aviation Fuel Market, by Fuel Type, 2021-2030 (USD Million)
Table 160 Mexico: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2018-2020 (USD Million)
Table 161 Mexico: Sustainable Aviation Fuel Market, by Biofuel Blending Capacity, 2021-2030 (USD Million)
12 Competitive Landscape
12.1 Introduction
Table 162 Key Developments of Leading Players in Sustainable Aviation Fuel Market Between 2018 and 2021
12.2 Market Share Analysis, 2020
Figure 35 Market Share Analysis of Leading Players in Sustainable Aviation Fuel Market, 2021
Table 163 Degree of Competition
12.3 Revenue Analysis of Top 5 Market Players, 2021
Figure 36 Revenue Analysis of Leading Players in Sustainable Aviation Fuel Market, 2020
12.4 Company Leadership Mapping
12.4.1 Stars
12.4.2 Emerging Leaders
12.4.3 Pervasives
12.4.4 Participants
Figure 37 Sustainable Aviation Fuel Market (Global) Company Evaluation Matrix.
12.5 Startups/Sme Matrix
12.5.1 Progressive Companies
12.5.2 Responsive Companies
12.5.3 Dynamic Companies
12.5.4 Starting Blocks
Figure 38 Sustainable Aviation Fuel Market (Sme) Competitive Leadership Mapping, 2020
12.6 Company Product Footprint Analysis
Table 164 Company Footprint
Table 165 Company Application Footprint
Table 166 Company Region Footprint
12.7 Competitive Scenario
12.7.1 Product Launches
Table 167 Product Launches
12.7.2 Deals
Table 168 Deals
13 Company Profiles
13.1 Introduction
13.2 Key Players
(Business Overview, Products/Services/Solutions Offered, Analyst's View, Key Strengths and Right to Win, Strategic Choices Made, Weaknesses and Competitive Threats, Recent Developments)*
13.2.1 Neste
Table 169 Neste: Business Overview
Figure 39 Neste: Company Snapshot
Table 170 Neste: Products/Solutions/Services Offered
Table 171 Neste: Product Developments
Table 172 Neste: Deals
13.2.2 Fulcrum Bioenergy
Table 173 Fulcrum Bioenergy: Business Overview
Table 174 Fulcrum Bioenergy: Products/Solutions/Services Offered
Table 175 Fulcrum Bioenergy: Product Developments
Table 176 Fulcrum Bioenergy: Deals
13.2.3 Lanzatech
Table 177 Lanzatech: Business Overviews
Table 178 Lanzatech: Products/Solutions/Services Offered
Table 179 Lanzatech: Deals
Table 180 Lanzatech: Deals
13.2.4 World Energy
Table 181 World Energy: Business Overview
Table 182 World Energy: Products/Solutions/Services Offered
Table 183 World Energy: Product Developments
Table 184 World Energy: Deals
13.2.5 Totalenergies
Table 185 Totalenergies: Business Overview
Figure 40 Totalenergies: Company Snapshot
Table 186 Total Energies: Products/Solutions/Services Offered
Table 187 Total Energy: Product Developments
Table 188 Total Energy: Deal
13.2.6 Gevo
Table 189 Gevo: Business Overview
Figure 41 Gevo: Company Snapshot
Table 190 Gevo: Products/Solutions/Services Offered
Table 191 Gevo: Deal
13.2.7 Sg Preston
Table 192 Sg Preston: Business Overview
Table 193 Sg Preston: Products/Solutions/Services Offered
Table 194 Sg Preston: Deals
13.2.8 Velocys
Table 195 Velocys: Business Overview
Figure 42 Velocys: Company Snapshot
Table 196 Velocys: Products/Solutions/Services Offered
Table 197 Velocys: Deals
13.2.9 Northwest Advanced Biofuels
Table 198 Northwest Advanced Biofuels: Business Overview
Table 199 Northwest Advanced Biofuels: Products/Solutions/Services Offered
Table 200 Northwest Advanced Biofuels: Deals
13.2.10 Skynrg
Table 201 Skynrg: Business Overview
Table 202 Skynrg: Products/Solutions/Services Offered
Table 203 Skynrg: Deals
13.2.11 Red Rock Biofuels
Table 204 Red Rock Biofuels: Business Overview
Table 205 Red Rock Biofuels: Products/Solutions/Services Offered
Table 206 Red Rock Biofuels: Deals
13.2.12 Aemetis
Table 207 Aemetis: Business Overview
Table 208 Aemetis: Products/Solutions/Services Offered
Table 209 Aemetis: Deals
13.2.13 Prometheus Fuels
Table 210 Prometheus Fuels: Business Overview
Table 211 Prometheus Fuels: Products/Solutions/Services Offered
Table 212 Prometheus Fuels: Deals
13.2.14 Wastefuel
Table 213 Wastefuel: Business Overview
Table 214 Wastefuel: Products/Solutions/Services Offered
Table 215 Wastefuel: Deals
13.2.15 Alder Fuels
Table 216 Alder Fuels: Business Overview
Table 217 Alder Fuels: Products/Solutions/Services Offered
Table 218 Alder Fuels: Deals
13.2.16 Saf+ Consortium
Table 219 Saf+ Consortium: Business Overview
Table 220 Saf+ Consortium: Products/Solutions/Services Offered
Table 221 Saf+ Consortium: Deals
13.2.17 Preem
Table 222 Preem: Business Overview
Table 223 Preem: Products/Solutions/Services Offered
Table 224 Preem: Deals
13.2.18 Omv
Table 225 Omv: Business Overview
Table 226 Omv: Products/Solutions/Services Offered
Table 227 Omv: Deals
13.2.19 Bp
Table 228 Bp: Business Overview
Figure 43 Bp: Company Snapshot
Table 229 Bp: Products/Solutions/Services Offered
Table 230 Bp: Deals
13.3 Other Players
13.3.1 Atmosfair
Table 231 Atmosfair: Business Overview
Table 232 Atmosfair: Products/Solutions/Services Offered
13.3.2 Phillips 66
Table 233 Phillips 66: Business Overview
Table 234 Phillips 66: Products/Solutions/Services Offered
13.3.3 Sundrop Fuels
Table 235 Sundrop Fuels: Business Overview
Table 236 Sundrop Fuels: Products/Solutions/Services Offered
13.3.4 Hypoint Inc.
Table 237 Hypoint Inc.: Business Overview
Table 238 Hypoint Inc.: Products/Solutions/Services Offered
13.3.5 Zeroavia
Table 239 Zeroavia: Business Overview
Table 240 Zeroavia: Products/Solutions/Services Offered
*Business Overview, Products/Services/Solutions Offered, Analyst's View, Key Strengths and Right to Win, Strategic Choices Made, Weaknesses and Competitive Threats, Recent Developments Might Not be Captured in Case of Unlisted Companies.
14 Appendix
14.1 Discussion Guide
14.2 Knowledge Store: The Subscription Portal
14.3 Available Customizations
  • Aemetis
  • Alder Fuels
  • Atmosfair
  • Bp
  • Fulcrum Bioenergy
  • Gevo
  • Hypoint Inc.
  • Lanzatech
  • Neste
  • Northwest Advanced Biofuels
  • Omv
  • Phillips 66
  • Preem
  • Prometheus Fuels
  • Red Rock Biofuels
  • Saf+ Consortium
  • Sg Preston
  • Skynrg
  • Sundrop Fuels
  • Totalenergies
  • Velocys
  • Wastefuel
  • World Energy
  • Zeroavia

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