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Montreal, Canada
1-10 Employees
2021
As your Sustainability Partner, Azzera provides a comprehensive suite of services designed to support and enhance your business operations and clients’ experiences. Discover how Azzera CELESTE can transform your approach to emissions compliance management. With the team of Azzera experts, you can develop reduction strategies that fit your business goals and operations. Azzera is an innovative provider of Net-Zero transition solutions. Azzera’s mission is to make measuring, and mitigating emissions through carbon markets and SAF an effortless experience. This new alliance with Azzera will foster the continuous growth of the Sustainable Aviation Fuel industry. Streamlining emissions compliance management for Airlines and Operators. Compensate for your unavoidable emissions with custom portfolios of carbon credits following the oxford principle for offsetting and tailored to your location, preferences and sustainable development goals.
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Featured
Sustainable Aviation Fuel Credit
... Sustainable Aviation Fuel Credit - Azzera - Live naturally ...
Boston, United States
1-10 Employees
1998
We are a global leader in the production and supply of RSB and CORSIA certified Sustainable Aviation Fuel (SAF) and Sustainable Aviation Fuel Certificates (SAFc). We are investing in scaled manufacturing and new technologies to achieve our goal of supplying 1 billion gallons of SAF annually by 2030. We are investing $4 billion in scaled manufacturing and new technologies to achieve our goal of supplying 1 billion gallons of sustainable aviation fuel annually by 2030. World Energy is a low-carbon solutions provider focused on helping the world's leading companies make their net-zero commitments real. Renewable diesel is a 99.9 percent renewable fuel that meets the ASTM specification for ASTM-D975 diesel fuel. Using RD instead of petroleum fuels could help to reduce emissions by 85 percent. We're moving fast to scale up the in-sector carbon solutions that the world's leading businesses need. World Energy was the world’s first producer of sustainable aviation fuel and we’ve been leading the field of renewable fuels for 25 years.
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Featured
World Energy | Sustainable Aviation Fuel
... Our solutions include sustainable aviation fuel, renewable diesel, and renewable naphtha, with plans to create renewable propane and low-carbon hydrogen at scale. ...
Miami, United States
2004
Established in 2004, Frank Funds is an independent mutual fund trust with three funds designed to deliver superior long-term returns. Our experienced management avoid the corporate pressure to focus on short-term results and ensure a consistent, disciplined approach. Discover how our research-driven process allows us to provide long-term solutions to investors and advisors that help generate returns and minimize losses.
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Featured
Overview | Actively Managed Funds | Frank Funds
... Barron’s on Investing in Sustainable Aviation Fuel ...
Zurich, Switzerland
1-10 Employees
2021
That’s why Metafuels, working together with the world renowned Paul Scherrer Institut have developed a new concept – aerobrew, a proprietary technology to convert green methanol to SAF. We believe SAF is the most viable way to decarbonise aviation and achieve the sector’s emission targets, and our patent pending aerobrew technology can provide an efficient, affordable alternative. Working together with the world-renowned Paul Scherrer Institut, we developed a new concept – aerobrew – a proprietary technology to convert green methanol to SAF. Our pioneering approach is ready to help airlines continue offering affordable air travel for people looking to reduce their carbon footprint, whilst also making the global transportation of goods by air more viable.
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Featured
Powering the future of aviation with sustainable aviation fuel
... Powering the future of aviation with sustainable aviation fuel ...
London, United Kingdom
1-10 Employees
Virent has a track record of establishing and maintaining long-term partnerships with industry leaders. In early 2016, Virent established a partnership with Johnson Matthey plc, Toray Industries Inc., and Andeavor (formerly Tesoro Refining & Marketing), a premier marketing, logistics and refining company in the United States. Andeavor subsequently acquired Virent in September 2016 with a primary interest in further developing and using Virent’s BioForming® technology to produce ‘drop-in’ bio-fuels and chemicals. In March of 2019, Virent and JM announced a collaboration with the petrochemicals group of BP on scale-up and commercialization of Virent’s BioForming technology for chemical applications. JM is Virent’s technology and engineering partner providing support to the engineering and catalyst work needed for a first plant project. Toray is collaborating with Virent on bio-paraxylene to enable production of 100% bio-polyester fibers and fabric. Virent has a track record of developing and maintaining partnerships with world-class companies, including Marathon Petroleum Corporation, Johnson-Matthey, BP and Toray Industries. Marathon Petroleum Corporation is a leading, integrated, downstream energy company.
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Featured
Sustainable Aviation Fuel (SAF)
... Sustainable Aviation Fuel (SAF) | Virent, Inc. ...
Hinckley and Bosworth, United Kingdom
1-10 Employees
2014
Our ultra-low carbon footprint process is the first-of-its-kind not to require a catalyst or incineration, solving the decades-old environmental, practical and commercial issues associated with less successful technologies such as pyrolysis. Our innovative solution will take this waste and use it more productively, helping to fuel heavy industry equipment, including ships, tractors and support power generation. Our full production line will process at least 4,000 lbs. The proof-of-concept has been certified by leading engineering firm Wood PLC. Waste plastic is the ideal raw material, says Brian Ablett.
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Featured
Technology — Advanced Hydrocarbon Fuels
... Sustainable Aviation Fuel ...
Irving, United States
10001+ Employees
1882
Darling Ingredients has been at the forefront of the circular economy, and we continue to look for ways to improve the environmental footprint of our business. The other 50% requires innovative, sustainable solutions to avoid landfills or incineration. Darling Ingredients (NYSE: DAR) is the largest publicly traded company that takes the other 50% of the animal and turns it into valuable ingredients. We create specialty food ingredients that are used to make gelatin capsules for the pills we take, thickeners for the foods we eat, and collagen peptides that help our hair, skin, nails and ligaments. We sell ingredients to companies that make feed for pets and livestock like swine, cattle, poultry and fish.
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Featured
Investing in Sustainable Aviation Fuel
... Investing in Sustainable Aviation Fuel ...
London, United Kingdom
11-50 Employees
We are proud to have established strategic partnerships with global energy companies, remote fuel providers as well as handling agents. We provide the following types of aviation fuel:. We are able to provide fuel in over 1000 various locations on 6 different continents spanning fuel suppliers, FBOs and into-plane agents. We are working tirelessly at continuing this network growth. The company was founded in London by a team of British and Swiss professionals who have decades of experience in providing aviation services. We monitor the development and application of SAF and cooperate with leading manufacturers of this fuel type. A flexible approach to financial instruments and settlement schemes allows us to cooperate with both General Aviation Operators and State Military Carriers.
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Featured
Aviation Fuel | Britannium Jet
... BRITANNIUM JET LIMITED provide Aviation Fuel Supply, Kerosene, Sustainable Aviation Fuel (SAF). ...
Brussels, Belgium
251-500 Employees
2021
The TAKE-OFF project entitled “Production of synthetic renewable aviation fuel from CO2 and H2” has received funding for 4 years from the European Union’s Horizon 2020 research and innovation programme under grant agreement N°101006799 . In that context, the project will develop and industrially validate innovative processes for the direct conversion of CO2 and renewable H2 to light olefins and subsequent conversion to Sustainable Aviation Fuel (SAF). SAF production costs compared to other PtL alternatives.
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Featured
Sustainable Aviation fuel from CO2
... TAKE OFF – Sustainable Aviation Fuel from ...
Englewood, United States
11-50 Employees
2005
Gevo addresses the market need of reducing greenhouse gas emissions with sustainable alternatives. We are commercializing the next generation of advanced, bio-based renewable fuels with sustainable aviation fuel, renewable premium gasoline, renewable natural gas, and chemicals and plastics that have the potential to achieve zero carbon emissions over the lifecycle of the fuel or product. Our products perform as well or better than traditional fossil-based fuels in infrastructure and engines, but with substantially reduced greenhouse gas emissions. Gevo’s ability to penetrate the growing low-carbon fuels market depends on the price of oil and the value of abating carbon emissions that would otherwise increase greenhouse gas emissions. Gevo believes that its proven, patented technology enabling the use of a variety of low-carbon sustainable feedstocks to produce price-competitive low-carbon products such as gasoline components, jet fuel, and diesel fuel yields the potential to generate project and corporate returns that justify the build-out of a multi-billion dollar business. Gevo creates protein-rich additions to the food chain and advanced renewable fuels simultaneously, and also powers processes that create additional energy sources, such as renewable natural gas and green hydrogen. To make our energy-dense liquid hydrocarbons, Gevo uses low-carbon renewable resource-based carbohydrates as raw materials and is developing renewable electricity and renewable natural gas for use in production processes, resulting in low-carbon fuels with substantially reduced carbon intensity. In addition to addressing the problems of fuels, Gevo’s technology also enables plastics, such as polyester, to be made with more sustainable ingredients.
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Featured
Low-Carbon, Bio-Based Sustainable Aviation Fuel
... Airlines can soon adopt a low-carbon future with Gevo's sustainable aviation fuel, expected to be drop-in ready to reduce carbon intensity. ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Sustainable Aviation Fuel
| Country with most fitting companies | United Kingdom |
| Amount of fitting manufacturers | 85 |
| Amount of suitable service providers | 88 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1882 |
| Youngest suiting company | 2021 |
Sustainable Aviation Fuel (SAF) refers to a biofuel used to power aircraft, which is produced from sustainable resources, such as waste oils from biological sources, agricultural residues, or non-fossil CO2. Unlike conventional jet fuel derived from petroleum, SAF generates significantly lower carbon emissions during its life cycle, from production to combustion. This reduction in greenhouse gas emissions is pivotal, as it aligns with global efforts to combat climate change and transition towards greener, more sustainable energy sources. The adoption of SAF is instrumental within the aviation industry, marking a critical step towards achieving carbon-neutral growth and reducing the sector's environmental footprint. It offers a viable alternative that maintains the performance and safety standards required for air travel, while simultaneously addressing the urgent need for sustainable practices. Furthermore, the use of SAF fosters innovation in fuel production technologies and promotes the development of circular economies by utilizing waste and residues as valuable resources. Consequently, the integration of SAF into the aviation fuel mix not only mitigates the environmental impact of air travel but also propels the industry towards a more sustainable future.
1. Reduced Carbon Footprint
Sustainable Aviation Fuel (SAF) is renowned for its significantly lower lifecycle carbon emissions compared to conventional jet fuels. This reduction is pivotal in the aviation industry's ongoing efforts to combat climate change and meet global sustainability targets.
2. Compatibility with Existing Infrastructure
One of the most compelling advantages of SAF is its compatibility with current aviation fuel infrastructure and aircraft engines. This seamless integration allows airlines to use SAF without the need for costly modifications, facilitating a smoother transition to greener alternatives.
3. Enhanced Energy Security
SAF is produced from a variety of renewable resources, including waste oils, agricultural residues, and even algae. This diversification of fuel sources reduces dependence on finite fossil fuels, enhancing energy security and stability in the face of geopolitical fluctuations.
4. Positive Economic Impact
The development and production of SAF can stimulate job creation in the bioeconomy sector, including agriculture, biotechnology, and engineering. This economic boost is particularly beneficial for rural areas, where many feedstocks for SAF are cultivated.
1. Feedstock Source
Ensure the supplier utilizes sustainable feedstocks, such as non-edible plants or recycled waste, which significantly reduce the carbon footprint compared to traditional jet fuels.
2. Carbon Emission Reduction
Evaluate the supplier's ability to deliver fuel that achieves substantial CO2 emission reductions over its lifecycle, from production to combustion.
3. Production Technology
Investigate the technology used in producing the sustainable aviation fuel (SAF). Advanced technologies often indicate higher fuel efficiency and lower environmental impact.
4. Scalability
Assess the supplier's capacity to scale up production to meet your demand without compromising quality or sustainability standards.
5. Cost-Effectiveness
While SAF is generally more expensive than conventional jet fuel, compare suppliers based on their pricing models and any long-term cost-saving programs they offer, such as incentives for bulk purchases.
6. Certification and Standards Compliance
Verify that the supplier's fuel meets international sustainability and safety standards, such as those set by ASTM International or the Roundtable on Sustainable Biomaterials.
Sustainable aviation fuel (SAF) is rapidly transforming the aerospace industry, offering a green alternative to conventional jet fuel. Airlines are the primary beneficiaries, integrating SAF to reduce carbon footprints and comply with global environmental regulations. This adoption not only supports sustainability goals but also positions airlines as leaders in eco-friendly travel, appealing to increasingly environmentally conscious consumers. In the cargo transport sector, companies are leveraging SAF to enhance the sustainability of their logistics operations. By using SAF for air freight, these businesses demonstrate a commitment to reducing greenhouse gas emissions. This shift not only improves their environmental impact but also aligns with the growing demand for green logistics solutions among clients who prioritize sustainability in their supply chain. The corporate travel sector is also embracing SAF, as companies seek to minimize the environmental impact of their business travel. By choosing airlines that utilize sustainable fuels, businesses can significantly lower the carbon emissions associated with their travel activities. This practice supports corporate social responsibility initiatives and reflects a broader trend towards sustainable business practices. Energy companies are exploring the production and distribution of SAF as a new business avenue. By investing in the development of sustainable fuels, these companies are diversifying their portfolios and contributing to the decarbonization of the aviation industry. This not only opens up new revenue streams but also places these companies at the forefront of the transition to cleaner energy sources. Through these diverse B2B use cases, sustainable aviation fuel is proving to be a pivotal element in the journey towards a more sustainable aviation sector and a greener future.
Sustainable Aviation Fuel (SAF) currently sits at a Technology Readiness Level (TRL) of 7 to 9, indicating it has been demonstrated in an operational environment and is nearing full commercial deployment. This advanced TRL is attributed to significant technical advancements and successful demonstration projects that have proven the efficacy and viability of SAF in real-world aviation settings. SAF's development has been accelerated by innovations in biofuel technology, including the conversion of biomass to liquid fuels and the extraction of fuels from waste materials and other renewable resources. These processes have evolved to become more efficient and less costly, addressing one of the primary barriers to SAF's broader adoption. Furthermore, the aviation industry's commitment to reducing carbon emissions has spurred investment and collaboration on a global scale, leading to technological breakthroughs that enhance the sustainability and performance of SAF. The fuel's compatibility with existing aircraft engines and fuel infrastructure, without the need for significant modifications, also contributes to its high TRL, facilitating easier integration into current aviation operations. These technical milestones reflect the substantial progress made towards making sustainable aviation fuel a practical and scalable solution for reducing the environmental impact of air travel.
In the short-term, the focus on sustainable aviation fuel (SAF) will center around enhancing the efficiency of current biomass-to-liquid (BTL) processes. Research is underway to optimize the conversion of organic materials into jet fuel, with the aim of reducing production costs and increasing yield. Innovations in enzyme technology and fermentation processes are expected to play a pivotal role, allowing for a broader range of feedstocks, including agricultural residues and non-food crops, to be utilized more effectively. Moving into the mid-term phase, the development of advanced biofuels, such as algae-based fuels, will gain momentum. Algae present a promising avenue due to their high oil content and minimal land use requirements. The focus will be on genetic engineering and photobioreactor design improvements to scale up production and reduce costs. Additionally, power-to-liquid (PtL) technologies, which convert renewable electricity and CO2 into liquid fuels, are anticipated to transition from pilot projects to commercial scale, offering a complementary pathway to decarbonize aviation. In the long-term, the advent of breakthrough technologies is expected to revolutionize SAF production. Synthetic biology and artificial photosynthesis are poised to offer novel methods for fuel generation, potentially bypassing current limitations in feedstock availability and production efficiency. These technologies aim to directly capture CO2 from the atmosphere and convert it into fuel using renewable energy sources, thus closing the carbon loop and achieving near-zero emissions in aviation. The success of these advancements will hinge on significant research investment and regulatory support to facilitate market adoption.
