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15th International Conference on Biofuels and Bioenergy, will be organized around the theme “Future Scope and Aspects of Biofuels , Bioenergy, Biomass”

Biofuels Meet 2021 is comprised of 20 tracks and 100 sessions designed to offer comprehensive sessions that address current issues in Biofuels Meet 2021.

Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.

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Biomass is one kind of renewable useful resource that can be transformed into liquid fuels referred to as biofuels for transportation. Biofuels include cellulosic ethanol, biodiesel, and renewable hydrocarbon "drop-in" fuels. The two most commonly used biofuels today are ethanol and biodiesel. Biofuels can be used in airplanes and most vehicles that are on the road. First generation biofuels are processed from the sugars and vegetable oils found in arable crops, which can be smoothly extracted applying traditional technology. In comparison, advanced biofuels are made from lignocellulosic biomass or woody crops, agricultural residues or waste, which makes it tougher to extract the vital fuel. Advanced biofuel technologies have been invented because first generation biofuels manufacture has major boundaries and limitations. First generation biofuel processes are suitable but restrained in most cases: there is a limit above which they cannot produce enough biofuel without forbidding food supplies and biodiversity. Many first generation biofuels rely on aids and are not cost competitive with usual fossil fuels such as oil, and some of them produce only limited greenhouse gas emissions savings. When considering emissions from transport and production, life-cycle assessment from first generation biofuels usually approach those of traditional fossil fuels. Advanced biofuels can aid resolving these complications and can impart a greater proportion of global fuel supply affordably, sustainably and with larger environmental interests.

  • Track 1-1 Algae Biofuels
  • Track 1-2 Aviation Biofuels
  • Track 1-3 Biofuels production and its utilisation
  • Track 1-4 Cyanobacteria biofuels production
  • Track 1-5 Advances in biofuel production
  • Track 1-6 Second generation biofuels
  • Track 1-7 Bio alcohols as Automobile Fuel
  • Track 1-8Mill Operation and Management
  • Track 1-9Greenhouse gas abatement costs and potentials
  • Track 1-10Hydropower

Biofuel is petroleum that is produced through contemporary biological processes, such as agriculture and anaerobic digestion, rather than a fuel produced by geological processes such as those involved in the formation of fossil gases, such as coal and petroleum, from prehistoric biological matter

 

  • Track 2-1 Production of Biofuels from Biomass
  • Track 2-2 Production of Bio chemicals from Biomass
  • Track 2-3 Production of Biogas from Biomass
  • Track 2-4 Energy balance of Biofuel production

Bioenergy is renewable energy made accessible and available from material obtained from organic sources. Biomass is any organic material which stores sunlight in the form of chemical energy. As a fuel it might incorporate wood, wood squander, straw, fertilizer, sugarcane and much variety of by-products from farming processes. In its most thin sense, it is a particular to biofuel, where fuel is obtained from biological sources. In its wider sense, it incorporates biomass, the organic material utilized as a biofuel and in addition to social, financial, logical and specialized fields related to utilizing natural hotspots for vitality. This is a typical misbelief, as bioenergy is the energy separated from the biomass, as the biomass is the fuel and the bioenergy is the vitality contained in the fuel.

  • Track 3-1 Food, fuel and freeways
  • Track 3-2 Non-food crops for biofuels production
  • Track 3-3 Agricultural modernization and its impact on society

Bioethanol is a clear, colourless liquid with a characteristic smell. Generally people will recognize the smell, as it is a kind of spirit or so-called pure alcohol (which, however, one cannot drink). Bioethanol was previously produced by fermentation and distillation and was primarily based on grain or corn (1st-generation bioethanol). This production was criticized heavily as it was using up food products. In contrast, 2nd-generation bioethanol is normally produced from corn or straw stalks. There is also on-going research and development into the use of municipal solid wastes to produce ethanol fuel. Brazil and the United States account for over 70 per cent of all ethanol production in the world today with the USA producing an estimated 6,500 Million gallons a year. Bioethanol produces only carbon dioxide and water as the waster products on burning, and the carbon dioxide released during fermentation and combustion equals the amount removed from the atmosphere while the crop is growing This fuel is not suitable for use in all cars and you should check compatibility with your vehicle manufacturer before using it. Researchers have recently launched a proposal to cultivate massive amounts of seaweed or algae. They claims that the project could occupy about ten thousand kilometres of seaweed farm and they estimated that the farm would be able to produce bioethanol from algae, as much as 20 million kilolitres or 5.3 billion gallons of bioethanol per year.

 

 

 

  • Track 4-1 Ethanol
  • Track 4-2 Bioethanol Production
  • Track 4-3 Cellulosic Ethanol
  • Track 4-4 Bio alcohols from Algae
  • Track 4-5 Bio alcohols from Plant Matter
  • Track 4-6 Bioethanol Production from Waste Vegetables
  • Track 4-7 Generations of Bio alcohols & Scope of Advancement

The process to convert solid biomass raw material to gas fuel or chemical feedstock gas (syngas) is known as Gasification. Chemical conversion of gas would be lavish and there are some microorganisms that can convert the CO, H(2), and CO(2) gas to fuels. The discovery of organisms which are capable of higher product yield, as metabolic engineering of microbial catalyst, will make this technology a feasible option for reducing our dependency on primary fuels. Different conversion methods are Gas Production, Pyrolysis , Anaerobic digestion, Bio refineries, Bioethanol production and sugar release from biomass. Production of energy crops could potentially compete for land with food cropping as a demand for biomass increases.

 

  • Track 5-1 Biochemical Conversion of Biomass
  • Track 5-2 Electrochemical Conversion of Biomass
  • Track 5-3 Thermal Conversion of Biomass
  • Track 5-4 Biological Conversion
  • Track 5-5 Chemical Conversion
  • Track 5-6 Gasification and Pyrolysis
  • Track 5-7 Combustion and Co-firing

Biomass is a fuel which is derived from organic materials and is a sustainable and renewable source of energy used to generate electricity or different forms of power. Biomass is mostly found in the form of living or recently living plants and biological wastes from industrial and home use while there are other forms too. Some examples that makes biomass fuels are: woods, garbage, crops, Manure, Landfill gas, alcohol gas etc. Conversion of biomass into bio fuel can be achieved through various different methods which are broadly classified into: thermal, chemical, and biochemical methods. Till now wood is the largest biomass energy source to date; some examples are like forest residues (such as dead trees, branches and tree stumps), yard clippings, wood chips and even municipal solid waste. Biomass can be converted to different effective forms of energy like methane gas or transportation fuels like ethanol and biodiesel. Fuel derived from Biomass also produces air pollution in the form of Carbon monoxide, Carbon dioxide, Nitrogen oxides, Volatile organic compounds, particulates and other pollutants at levels above compared to those conventional fuel sources such as coal or natural gas in some cases (such as with indoor heating and cooking).

 

  • Track 6-1Waste Biomass to energy
  • Track 6-2Agricultural biomass and energy production
  • Track 6-3Industrial waste biomass
  • Track 6-4Biomass and electricity
  • Track 6-5Conversion technologies like pyrolysis, gasification, biological conversion
  • Track 6-6Jet fuel for Heavy Machines from Biomass

Bioenergy is conversion of biomass resources including agricultural and forest area residues, organic municipal waste and from vegetation to useful energy carriers inclusive of heat, power, electricity generation and transport fuels. Biomass uses is increasing day by day for modern applications such as Dendro-power, Co-generation and Combined Heat and Power generation (CHP). Relying on the useful resource availability and technical, economic and environmental impact, these can be the alternatives to fossil fuels applications. Bioenergy is  a renewable energy resource mainly appropriate for electricity generation, heating & cooling in delivery, will be at the core of this sectorial shift in renewable power manufacturing and use and is becoming the dominant form of RES.

  • Track 7-1Energy in Biomass
  • Track 7-2Photo Bioreactors
  • Track 7-3Microbial Electrochemical Cells
  • Track 7-4Bioenergy for Agricultural Production

Biomass is first treated and then transformed into synthesis gas via gasification process. The resulting syngas is then cleaned preliminary to conversion to liquid biofuels, typically via Fischer Tropsch or the Mobil process. There are two main biomass-based liquid propellant in the market place today, ethanol and biodiesel. Some 20 Mm 3 y -1 of ethanol is produced with an energy content of 435 PJ, manufacturing this the second most important biofuel. A much smaller amount of biodiesel is used in the USA and Europe. A tonne of cane Generally produces between 125 and 140 kg of raw sugar, or between 70 and 80 liters of ethanol, although a tonne of maize, with about 70% to 75% starch content, will produce between 440 and 460 L t -1 with wet and dry corn crushing, respectively.

 

  • Track 8-1Jet fuel from Biomass
  • Track 8-2Trending Research from Biomass
  • Track 8-3Liquid Biofuels from Biomass
  • Track 8-4 Cellulosic Ethanol from Biomass

 Bio economy is understanding mechanisms and methodologies at the genetic and molecular levels and applying this to creating or improving industrial processes. The Bio economy comprises those parts of the economy that use renewable biological resources from land and sea – such as crops, forests, fish, animals and micro-organisms – to produce food, materials and energy. It is an essential and effective alternative to the dangers and limitations of our current fossil-based economy and can be considered as the next wave in our economic improvements and development. Bio economy, bio-based economy, biotechnology refers to all economic activity derived from scientific and research activity focused on biotechnology.

 

  • Track 9-1Bio economy tools
  • Track 9-2Biofuel market
  • Track 9-3Blue economy business
  • Track 9-4Industrial Bio economy
  • Track 9-5Advanced Bio economy

 Biodiesel is a different fuel similar to conventional or 'fossil' diesel. Biodiesel can be produced from straight vegetable oil, animal oil or fats, tallow, and waste cooking oil. The process used to convert these oils to Biodiesel is called transesterification. Biodiesel has reduced exhaust emissions related to petroleum diesel fuel.

 

  • Track 10-1Crops for biodiesel production
  • Track 10-2Biodiesel production from municipal waste
  • Track 10-3Biodiesel as automobile fuel
  • Track 10-4Biodiesel as automobile fuel
  • Track 10-5Biodiesel production on industry level and scale up
  • Track 10-6Enzymatic biodiesel production
  • Track 10-7Cost effective techniques for biodiesel production
  • Track 10-8Biodiesel feedstocks
  • Track 10-9Efficiency and economic arguments
  • Track 10-10Biodiesel to hydrogen-cell power

The Biogas is a type of Biofuel that is naturally produced from the decomposition of Organic Waste. When Organic Matter, such as food scraps and Animal Waste, break down in an anaerobic environment (an environment absent of oxygen) they release a Blend of Gases, primarily methane and Carbon Dioxide.

  • Track 11-1Biogas from agriculture waste
  • Track 11-2Biogas from algae
  • Track 11-3New & possible substrates for biogas production
  • Track 11-4Biogas technologies
  • Track 11-5Anaerobic packed-bed biogas reactors

 Biohydrogen is an example of an advanced Biofuel ( third-generation biofuel). In advanced Biofuel Technologies, microbes are developed in special bioreactors and provided with the energy and nutrients that they need including, Sunlight, Waste Organic Material, CO2 from the air or from conventional Gas Plants.

 

  • Track 12-1Algal biohydrogen
  • Track 12-2Bacterial biohydrogen
  • Track 12-3Fermentative biohydrogen production
  • Track 12-4High-yield biohydrogen production
  • Track 12-5Enhancing biohydrogen production
  • Track 12-6Biohydrogen purification

 Energy recycling is the recovery of energy that would normally be wasted in industrial processes by flaring, exhausting to the atmosphere or operating low-efficiency equipment, and converting it into electricity or thermal energy (steam).
  

 

 The biorefinery is a facility that integrates biomass conversion processes and equipment to Produce petroleum, power, heat, and value-added chemicals from Biomass. The Biorefinery concept is analogous to today's petroleum refinery, which produces multiple fuels and products from Fuel.

 

  • Track 14-1Types of biorefineries
  • Track 14-2Biorefining systems
  • Track 14-3Biorefining scheme from algal and bacterial protein sources
  • Track 14-4Integrated biorefinery
  • Track 14-5Risk management issues
  • Track 14-6Bio oil production

Plant material and animal waste as biomass is used to create transportation fuels and to generate electricity. Biomass energy is obtained from plant-based material and solar energy has been converted into organic matter. Biomass can be used in a variety of energy-conversion process to produce power, heat, steam, and fuel. Biomass is used by food processing industries, animal feed industry, and wood products industry, which includes construction and fibre products (paper and derivatives), along with chemical products made from those industries which have diverse applications together with detergents, biofertilizers, and erosion control products. The biggest opportunity for the global bioenergy technology is the increasing demand for electricity across the world.

 

  • Track 15-1From Waste Products into Renewable Resources
  • Track 15-2From Traditional Biomass to Modern Bioenergy
  • Track 15-3From Chemical to Biological Processes
  • Track 15-4From Local Fuel to Global Commodity

 Pyrolysis is a thermochemical remedy, which may be carried out to any organic (carbon-based totally) product. it is able to be completed on natural products as well as its mixtures. in this treatment generally, the material is exposed to high temperature, and within the absence of oxygen goes through chemical and physical separation into exclusive molecules. The decomposition takes place thanks to the restrained thermal balance of chemical bonds of substances, which lets them to be disintegrated by using heat as a medium. The products of biomass pyrolysis encompass biochar, bio-oil and gases such as methane, hydrogen, carbon monoxide, and carbon dioxide. Depending on the thermal surroundings and the final temperature, pyrolysis will yield particularly biochar at low temperatures, much less than 450 0C, when the heating rate is quite gradual, and particularly gases at excessive temperatures, greater than 800 0C, a rapid heating rate. At an intermediate temperature and relatively under high heating rates, the principle product is bio-oil.

 

  • Track 16-1Wood Fuels and Charcoal
  • Track 16-2Residual Forest Biomass
  • Track 16-3Forestry Materials

With pellets and densified, biomass are produced and sold in quantities ranging from a 40 pound bag to entire shiploads, this industry is serving a broad market with very diverse needs. The track will offer participants an opportunity to concentrate exclusively on this hot segment of the biomass to energy industry.

 

  • Track 17-1Pellet Mill Design
  • Track 17-2Biomass Harvest and Transport
  • Track 17-3Feedstock Procurement Strategies

 Solar panelS convert the sun's lightweight into usable alternative energy victimization with N-type and semiconductor device material. Once daylight is absorbed by these materials, the alternative energy knocks electrons to loose from their atoms, permitting the electrons to flow through the fabric and thus it provides electricity. This method of changing lightweight (photons) to electricity (voltage) is named the electrical phenomenon (PV) result , presently star panels convert most of the actinic radiation spectrum and regarding half the ultraviolet and actinic ray spectrum to usable alternative energy. Solar energy technologies use the sun's energy and light-weight to produce heat, light, hot water, electricity, and even cooling, for homes, businesses, and business.

 

  • Track 18-1Green Energy in Transport
  • Track 18-2Green Buildings and Infrastructures
  • Track 18-3Green Policies and Programs

 Energy and environment are co-related in the technological and scientific aspects including energy conservation, and the interaction of energy forms and systems with the physical environment. The levels of atmospheric carbon dioxide has elevated by 31% among 1800 and 2000, going from 280 parts per million to 367 parts per million. Scientists see coming carbon dioxide levels to be as high as 970 parts per million by the year 2100. Different factors are responsible for this development, which include progress with respect to technical parameters of energy converters, in particular, improved efficiency; emissions characteristics and expanded lifetime. Various environmental policies have been implemented across the globe for reduction of GHG emissions for improvement of environment.

 

  • Track 19-1Global Warming
  • Track 19-2Energy and Sustainability
  • Track 19-3Waste Management

 Renewable Energy is generally defined as any energy resources that can be naturally renew or regenerated over a short period of time and which is directly derived from the sun (solar energy),indirectly from sun such as wind energy, hydropower energy, bioenergy ,or from other mechanisms of natural resources (geothermal energy or tidal energy). Renewable energy only includes energy derived from organic and natural resources it doesn’t include inorganic resources. REN21 is an energy policy network that brings government and non-governmental organisation together and other organisations to learn from one another and build successes in advance renewable energy. Renewable energy which is replaced by a natural process as the rate of process is faster than the rate which is consumed. Renewable energy is energy that is obtained from natural processes and are continuously replenished. This includes sunlight, geothermal heat, wind energy, tides, water, and various forms of biomass. This energy cannot be totally used and is constantly renewed. Biomass is a renewable organic matter, and it includes biological material derived from living, or recently living organisms, such as wood, waste, and alcohol fuels.

 

  • Track 20-1Solar Energy
  • Track 20-2Wind Energy
  • Track 20-3Nuclear Energy
  • Track 20-4Tidal Energy
  • Track 20-5Waste Energy
  • Track 20-6Wood Energy
  • Track 20-7REN21 Policy Network for the 21st Century