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East Lindsey, United Kingdom
11-50 Employees
2017
Green Futures Biofuel provides an excellent level of support, and care for all members of the GFBiofuel community. We’re on a mission to make farming a sustainable venture, and that mission goes on. Green Futures Biofuel prides itself on our ability to provide our customers, and clients with the perfect system to the perfect company. As a forward-thinking company made up of compassionate individuals, we’re entirely dedicated to the environment. Green Futures Biofuel is a renewable energy and vertical farming business that has a vision of a better future. Our aim is to empower local and sustainable food production WHEREVER, WHENEVER by working with local governments, communities and organisations to bring food production closer to home. Water is essential to life, and it’s no surprise it’s essential to food production as well. Fruit and vegetables are among the most water-laden food products, simply because they contain more water.
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Why Green Futures Biofuel?
... Services | Green Futures Biofuel ...
Castenedolo, Italy
11-50 Employees
La nostra missione é garantire al mercato un biodiesel AVANZATO. Pertanto, il biodiesel prodotto da Sabio fuels, è eslcusivamente double counting ed advanced secondo lo schema nazionale italiano, ISCC. Il Biodiesel prodotto da Sabio fuels è un bio combustibile di qualità sia invernale che estiva, distillato al 100%, secondo i piu alti standard qualitativi, utilizzata dalle maggiori aziende petrolifere per autotrazione.
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Sabio fuels – Sustainable Advanced Biofuels
... Sabio fuels – Sustainable Advanced Biofuels ...
Stockholm, Sweden
1-10 Employees
2000
We are a company of scientists, engineering and visionaries devoted to contributing to world safety, by developing, implementing and offering technologies supporting our self-sufficiency goals, energy independence with great care for the environment. We are one of the companies at the forefront of the greatest achievement of our society- the technological solution to sustainable energy production, the pathway to sustainable living. We produced, sold and delivered fully formulated SAF for tests, certification and demonstration programmes to the US AirForce, US FAA, Swedish FMV, research institutes of US, UK and Sweden, original engine manufacturers and oil companies. We provide you a custom made solution for our ATJ technology targeting maximum yield for any of our products as well as EPC/EPCM project for ATJ plant capacity of your choice. Swedish Biofuels delivers science, process architecture and engineering solutions for production and conversion of Alcohols to sustainable transport fuels. Our technology offers a viable alternative to fossil fuels, taking aviation, transport, and industry into a new era of responsible, ethical and secure business. Energy independence and sustainability is now mission-critical, to business, to countries, to us all. Swedish Biofuels is devoted to contributing to world safety by offering technologies supporting our self-sufficiency goals combined with great care for the environment.
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Swedish Biofuels AB
... Why Swedish Biofuels ...
Columbia, United States
11-50 Employees
When we use the waste from the managed, sustainable plantation forests as the feedstock for the SAF we interrupt that cycle. In fact, studies have shown that SAF reduces emissions from jet engines by 80% or more.
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Strategic Biofuels’ technology platform is built using safe, licensed processes.
... Strategic Biofuels’ upgrading licensor has proved conversion of wood derived synthetic crude into both diesel and jet fuels meeting all regulatory requirements. ...
Bælum, Denmark
1-10 Employees
2014
Kinetic Biofuel offers a complete concept for handling of straw from bales to briquettes for industrial scale biogas production based on straw and slurry. We appreciate your interest in our products and our company. Kinetic Biofuel offers a 2nd Generation Technology using straw as raw material enabling biogas producers to more than doubling the biogas production in existing and new biogas plants. Mechanical briquetting of straw for biogas purposes is the most tested, documented and safest technology of using straw for biogas purposes. Our briquetting line offers eco-friendly energy production by managing and feeding cereal straw into bioreactors. Biogas production is rapidly increasing worldwide, and the UK is no exception to this. Historically the biogas has been used for production of heat, electricity, in transport or finally upgraded and delivered to the natural gas grid. The latter is the end purpose for Kinetic Biofuel customer Farm Renewables on The Isle of Sheppey.
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Biofuel technology
... Kinetic biofuel-technology is an advanced technology. ...
1-10 Employees
The biomethane product can be used in clean-burning fuel cells producing energy for the customer, input directly into customers existing power generation units and/or used as CNG to provide fuel for vehicles. The result for the customer is cheaper electricity while reducing greenhouse gas emissions. By incentivizing renewable, carbon-neutral energy, while penalizing those who fail to curb emissions, these laws have attempted to proactively promote the development of an alternative energy market. BioFuels Energy provides the market with unique Renewable Energy Solutions by combining biomethane resources with energy users through unique delivery systems. BioFuels currently owns and operates a biomethane gas purification plant at the San Diego Point Loma Wastewater Treatment Plant.
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About BioFuels Energy
... About | BioFuels Energy, LLC. ...
Vienna, United States
11-50 Employees
Sustainable Biofuels Solutions, LLC (SBS), led by David Nash (RADM USN, Ret), was formed to engineering and project develop advanced renewable energy technologies. SBS ,a company with World Class leadership, offers two revolutionary new technology platforms, Continuous Microwave Thermo Catalytic Depolymerization (CMD) and Sublimax. These innovative technologies are available to the renewable energies market to affordably, efficiently and responsibly produce renewable drop-in fuel and electricity from biomass and municipal solid waste (MSW). SBS’s CMD technology creates renewable drop-in diesel fuel from various forms of biomass and MSW using a technique called Continuous Microwave Thermo Catalytic Depolymerization. Sublimax transforms feedstock into high BTU gas which can be used for power generation or to meet heating or cooling needs.
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Sustainable Biofuels Solutions
... Sustainable Biofuels ...
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NEO Biofuels – Advanced biofuels for petrol pioneers
... NEO Biofuels – Advanced biofuels for petrol ...
Hellerup, Denmark
1-10 Employees
2020
Using groundbreaking technology, Green2x transforms natural leftovers to bioenergy on a global scale. Green2x will play a leading role in transforming natural leftovers to energy. Green2x offers a scalable solution that will make sustainable energy accessible – not just for the few. Green2x is currently developing projects both in Denmark and internationally and plans to expand globally before 2030. Based on a groundbreaking, patented process, Green2x develops, constructs and operates processing facilities that contribute to making our planet greener. The process is simple – so is the idea. At the port of Vordingborg, at the southern point of Sealand, the first production site is underway. We share the milestones we reach and our latest news about Green2x on LinkedIn.
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Green2x - Scaling Biofuel
... Green2x - Scaling Biofuel ...
Hungerford, United Kingdom
1-10 Employees
Wessex Biofuels delivers premium heating grade wood chip for specialist wood fuel heating systems as well as wood chip for your garden, play area or horse arena. Wessex Biofuels operate all over the South of England. For customers in Wiltshire, our main hub delivering premium grade wood chip is situated in Salisbury. For our Berkshire customers our locally based hub delivering premium grade wood chip is situated in Hungerford. All woodchip generated from trees will have a Forestry Commission approved felling licence. Deoending on order size, location and site access, we can deliver with tractor and trailer which is approximately 20m3, 8 wheeler lorry with is 30m3 or a walking floor lorry which is 100m3.
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About Wessex Biofuels
... About Wessex Biofuels ...
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 Biofuel
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 572 |
| Amount of suitable service providers | 471 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 2000 |
| Youngest suiting company | 2020 |
Biofuel refers to a diverse range of fuels derived from biomass or organic materials, including plant materials and animal waste, intended as alternatives to conventional fossil fuels. Primarily used in transportation, heating, and electricity generation, biofuels are classified into three main categories: first-generation, derived directly from food crops through processes like fermentation to produce ethanol; second-generation, produced from non-food biomass including agricultural and forestry residues, and third-generation biofuels, derived from algae. The environmental impact of biofuels is a subject of extensive debate; proponents argue that they can significantly reduce greenhouse gas emissions as the carbon dioxide released during combustion is offset by the carbon dioxide absorbed during the plant growth phase, contributing to a more balanced carbon cycle. However, critics highlight concerns over land use change, biodiversity loss, and competition with food production. The sustainable production and use of biofuels require carefully balancing these factors to minimize negative impacts while maximizing the benefits of reduced fossil fuel dependency. As such, biofuels are at the forefront of efforts to transition towards renewable energy sources, playing a crucial role in reducing reliance on non-renewable resources and mitigating climate change by offering a potentially more sustainable and less environmentally damaging energy solution.
1. Renewability
Biofuels are derived from biomass materials such as crops and agricultural waste, which can be replenished annually. This contrasts sharply with fossil fuels, which are finite and deplete over time. The renewability of biofuels ensures a sustainable and consistent energy supply without the fear of exhaustion that accompanies conventional energy sources.
2. Reduced Environmental Impact
Biofuels burn cleaner than fossil fuels, significantly reducing greenhouse gas emissions and particulate matter released into the atmosphere. This cleaner combustion process makes biofuels a key player in efforts to combat climate change and improve air quality. Their production and use cycle can also be more environmentally friendly, often involving the recycling of biological waste.
3. Energy Security
By utilizing locally available resources for biofuel production, nations can reduce their dependence on imported oil, enhancing their energy security. This shift not only supports local economies but also reduces the geopolitical and supply risks associated with reliance on oil from politically unstable regions.
4. Compatibility with Existing Infrastructure
Many biofuels can be used with existing vehicle engines and fuel distribution systems with little to no modification. This compatibility significantly lowers the barrier to entry for widespread adoption, compared to alternatives that may require substantial changes to infrastructure.
1. Production Capacity
Evaluate the supplier's ability to meet your demand. A consistent and reliable production capacity ensures a steady supply of biofuel.
2. Sustainability Practices
Investigate the environmental impact of the supplier's production process. Opt for suppliers committed to reducing carbon footprint and using renewable resources.
3. Quality Assurance
Ensure the biofuel meets industry standards and specifications for quality and performance. Look for certifications that validate the biofuel's quality.
4. Cost Efficiency
Analyze the cost-effectiveness of their biofuel. Competitive pricing without compromising quality is crucial for long-term partnerships.
5. Supply Chain Transparency
The supplier should have a transparent and traceable supply chain. This transparency is vital for assessing the sustainability and ethics of the biofuel source.
6. Technical Support and Service
Assess the level of technical support and customer service provided. Reliable support is essential for addressing potential issues and ensuring smooth operations.
Biofuels, derived from biological materials, are becoming increasingly pivotal in the energy sector. In transportation, companies are adopting biofuels to power fleets of trucks, buses, and even aircraft, significantly reducing carbon footprints and adhering to stricter environmental regulations. This shift not only supports sustainability goals but also offers potential cost savings over traditional fossil fuels. In the manufacturing industry, biofuels serve as an alternative energy source for powering facilities and machinery. This application is particularly relevant for industries aiming to decrease reliance on conventional energy sources and improve their environmental impact. The use of biofuels in manufacturing processes can contribute to more sustainable production practices and the achievement of green certifications. Agriculture presents another significant B2B use case for biofuels. Here, biofuels are utilized in farm machinery and equipment, offering a renewable energy solution that can reduce operational costs and emissions. This application supports the agricultural sector's move towards more sustainable and eco-friendly farming practices. Lastly, the power generation sector is increasingly incorporating biofuels as a part of their energy mix. By using biofuels for electricity generation, power companies can produce cleaner energy, reduce greenhouse gas emissions, and provide more sustainable energy solutions to businesses and communities. This shift is crucial in the global transition towards greener, more renewable energy sources.
Biofuel technology varies widely in its Technology Readiness Level (TRL), with some forms like first-generation bioethanol and biodiesel reaching TRL 9, indicating full commercial deployment, while more advanced third-generation biofuels derived from algae or waste materials hover around TRL 4 to 6, representing stages from small-scale validation to demonstration in relevant environments. The disparity in TRLs primarily stems from technical challenges associated with production processes, efficiency, and scalability. First-generation biofuels have achieved a high TRL due to well-established fermentation and transesterification processes that allow for efficient conversion of food crops into energy. However, these processes have faced criticism for competing with food supply and land use. In contrast, third-generation biofuels promise a sustainable alternative by utilizing non-arable land and producing higher energy yields without competing with food production. Yet, the extraction and conversion technologies required for these biofuels are still under development, facing hurdles in achieving the same efficiency and cost-effectiveness as their predecessors. Technical issues, such as optimizing algal growth conditions, developing cost-effective harvesting and oil extraction methods, and creating viable commercial-scale production systems, remain significant barriers to their advancement to higher TRLs.
In the Short-Term, advancements in biofuel technology are expected to center around improving the efficiency of current bioethanol and biodiesel production processes. Scientists are focusing on genetically modifying feedstock to increase yield and on streamlining the fermentation and distillation processes. This phase is likely to see the commercialization of second-generation biofuels, derived from non-food biomass, reducing competition with food supply and lowering carbon emissions. The Mid-Term outlook suggests a shift toward the development and deployment of third-generation biofuels, primarily algae-based fuels. Algae, with its high oil content and rapid growth rate, presents an environmentally friendly alternative capable of producing significant amounts of biofuel on marginal lands. Researchers are expected to overcome current harvesting and processing challenges, making algae-based biofuels a competitive alternative to fossil fuels and traditional biofuels. This period will also witness increased investment in bio-refineries, integrating waste management and biofuel production. In the Long-Term, the focus will likely move towards the realization and commercialization of fourth-generation biofuels, leveraging genetically engineered organisms capable of directly producing hydrocarbon fuels. This futuristic approach aims to create biofuels that are completely carbon-neutral or even carbon-negative by fixing atmospheric carbon dioxide more efficiently. This phase is expected to be characterized by significant breakthroughs in synthetic biology and genetic engineering, leading to the production of biofuels that can directly replace gasoline, diesel, and jet fuels without the need for engine modifications.
