Топ-100
Terraforming Market
Energy saving

Biofuel production technologies for sustainable urban development

Aviation fuel from garbage
Low-carbon and inexpensive fuel from urban waste
Fuel from coffee
Green energy on coffee grounds
Fuel from wine
Green fuel from tartar and grape pomace
Bio-oil from grass and sticks
Fuel from plant biomass
Hydrogen from organic fuel
Separation of pure hydrogen fuel from gas mixtures for fuel cells
Biobenzine from alcohol waste
Green fuel from acetals
Experts in the field of biofuels
  • Rusagrotech
    A company engaged in the development and production of biofuels based on agricultural waste. They offer various types of biofuels, including biogas, bioethanol and biodiesel.
  • Biofuel+
    An expert company specializing in research, development and implementation of biofuel technologies. They conduct market analysis, potential assessment and development of strategies for the use of biofuels in various industries.
  • GreenBioFuel
    A company engaged in the production of biodiesel and bioethanol from various raw materials, such as vegetable oil, animal fats and food waste.
  • Research Institute of Biotechnology and Alternative Fuels
    A research institute specializing in the development and research of biofuels. They are studying various types of biofuels and their potential in the energy sector.
  • Bioprom
    A company engaged in the production of biofuels from vegetable raw materials. They develop and implement technologies for the production of biodiesel and other types of biofuels.
  • Dr. Gloria Cuenca-Abrams
    Professor of chemical Engineering at the University of California, Berkeley. She is an expert in the production of biofuels from biomass.
  • Dr. Michael T. Smith
    Professor of Agronomy and Plant Genetics at the University of Illinois at Urbana-Champaign. He is an expert on the use of agricultural crops for the production of biofuels.
  • Dr. James E. Dumesick
    Professor of Chemical Engineering at the Massachusetts Institute of Technology. He is an expert in converting biomass into liquid fuel.
  • Dr. David A. Kosnier
    Professor of Chemical Engineering at the University of Minnesota. He is an expert in the production of biofuels from algae.
  • Dr. Bruce E. Dale
    Professor of Chemical Engineering at the University of Delaware. He is an expert in the production of biofuels from synthesis gas.
  • U.S. Department of Energy (DOE)
    a federal agency dedicated to promoting energy efficiency and renewable energy sources. The Ministry of Energy provides funding for research and development in the field of biofuel technologies.
  • National Renewable Energy Laboratory (NREL)
    This is a federal laboratory engaged in the development of renewable energy technologies. NREL provides funding for research and development in the field of biofuel technologies.
  • American Biofuels Association (ABA)
    a non-profit organization working to promote the use of biofuels. ABA provides the public with information and resources on biofuels.
The technologies for producing biofuel play an important role in the sustainable development of cities by offering alternative and environmentally friendly sources of energy for various sectors, including aviation, transportation, and industry. They represent innovative ways of converting various organic waste and resources into useful fuel, reducing dependence on petroleum products, and minimizing negative environmental impact.

Waste-to-jet fuel is one of the promising technologies that can help reduce carbon dioxide emissions into the atmosphere. It involves the conversion of biomass, plastic waste, and other organic materials, thereby reducing the consumption of petroleum products in the aviation industry and decreasing its ecological footprint.

Another important direction is the production of hydrogen from organic fuel. The process of converting biomass or biogas into hydrogen allows the production of clean fuel with high energy characteristics, suitable for use in vehicles and industries.

Bio-gasoline from alcohol waste is another promising technology that converts alcohol production waste into useful fuel. This process reduces dependence on oil and promotes sustainable resource utilization.

The technology of producing green fuel from acetals also deserves attention. Acetals are organic compounds that can be obtained from plant residues such as straw, stalks, and wood chips. These materials can be used to produce environmentally friendly fuel, reducing greenhouse gas emissions and mitigating the negative impact on the environment.

Technologies for fuel production from wine and plant biomass also present interesting opportunities for the sustainable development of cities. Grape waste and residues from wine production can be used to produce biofuel. This process helps reduce waste volumes while providing an energy resource.

There are also technologies for fuel production from plant biomass that play an important role in diversifying the energy sector and reducing greenhouse gas emissions. Plant biomass, such as wood waste, straw, or energy crops, can be used to produce biogas, biodiesel, and other types of biofuel.
Fuel from coffee is another innovative technology that utilizes waste from coffee bean processing to obtain useful fuel. The process of converting coffee waste into biofuel has a dual benefit as it helps reduce coffee production waste while providing an alternative energy source.

It is important to note that these technologies are still in the development stage and require further research and implementation. However, they hold the potential for sustainable development, allowing cities to reduce their dependence on fossil fuels, decrease greenhouse gas emissions, and provide environmentally friendly sources of energy.

In conclusion, biofuel technologies for sustainable urban development open up new possibilities in the field of energy and contribute to a cleaner and more sustainable future. They help reduce negative environmental impact, diversify energy sources, and create more resilient urban systems.
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