It’s our pleasure to welcome you all to the “6th International Hybrid Conference on Biofuel and Biomass” which is scheduled during May 28-29, 2024. The theme of the conference is “Recent Advancement in Biofuel & Biomass” . We want to gather all the experts and students, YRF,s & interested people related from across the field who will be presenting their advanced research and challenges faced during the pandemic and their thoughts, Knowledge, and Opinion with the rest of us in an International Global Conference.
Biofuel and Biomass 2024 will offer Research sessions, Poster sessions, Tutorials, Video Demonstrations, Industry Sessions, Q and A Panels, and a Ph.D. presentation. It will be a great global webinar for sharing the latest insights of academic and industrial research as well as experiencing unique connections.
Biofuel Biomass 2024 has extended global outreach efforts to invite speakers and attendees from many nations around the world, who have an opportunity to witness the results of quality research efforts provided by attending world renowned Scientists, Fuel Engineers, Chemical Engineers, Organizations, and societies of Biofuel and Bioenergy, Business delegates, CEO's and R&D Heads from Industries, Professors and Students. Directors/Co-Directors of Research-based companies across Europe and the US who are investing in Biofuels and Bioenergy.
Track 1: Biomass
As a vitality source, biomass can either be utilized legitimately through ignition to create heat or optionally in the wake of changing it to various types of biofuel. Biomass is a natural issue collected from living, or as of late living beings. Biomass is an inexhaustible wellspring of fuel to yield vitality since squander buildups will consistently win – in types of scrap wood, plant residuals and backwoods assets and appropriately coordinated woodlands will consistently have extra trees, and we will perpetually have crops and the unconsumed natural issue from those harvests.
Track 2: Advanced Biofuels
Original biofuel forms are helpful however controlled by and large: there is a breaking point above which they can't yield enough biofuel without denying nourishment supplies and biodiversity. Some original biofuels depend on appropriations and have not cost seriously with winning petroleum derivatives, for example, oil, and some of them yield just restricted ozone-depleting substance discharges investment funds. While thinking about outflows from creation and transport, life-cycle evaluation from original biofuels ordinarily approach those of customary non-renewable energy sources. Progressed biofuels can help to settle these intricacies and can give a more prominent extent of worldwide fuel supply reasonably, economically, and with bigger natural interests. Progressed biofuels are energizing that can be prepared from various kinds of biomass. Original biofuels are handled from the sugars and vegetable oils shaped in arable yields, which can be easily separated applying ordinary innovation. In the examination, progressed biofuels are produced using lignocellulosic biomass or woody yields, farming buildups or waste, which makes it harder to separate the imperative fuel. Progressed biofuel innovations have been concocted in light of the fact that original biofuels fabricate has significant confinements.
Track 3: Biomass Technologies
There are four sorts of transformation advances at present accessible, each suitable for explicit biomass types and bringing about explicit vitality items, for example, Thermal Conversion, Thermochemical change, Biochemical transformation, Chemical transformation. A few innovations for changing over bioenergy are business today while others are being steered or in innovative work.
Track 4: Bioenergy
Bioenergy is a manageable force source made open from materials acquired from the natural beginning stage. Biomass is any common issue that has spared sunshine as blend essentialness. In its increasingly broad sense, it joins biomass, the normal issue utilized as a biofuel, similarly as the social, coherent, money-related, and concentrated fields related to utilizing natural hotspots for essentialness. This is a normal uncertainty, as bioenergy is the imperativeness created from the biomass, as the biomass is the fuel and bioenergy is the essentialness taken care of in the fuel. As a fuel, it would contain wood, straw, wood waste, sugarcane, fertilizer, and various different outcomes from different country techniques. In its most particular sense, it is a comparable word to biofuel, which is fuel procured from regular sources.
Track 5: Bio alcohols and Bioethanol
Naturally integrated alcohols, most every now and again ethanol, and infrequently propanol and butanol, are shaped by the response of microorganisms and catalysts through the aging of sugars or starches, or cellulose. Biobutanol (likewise called biofuel) is regularly attested to give an immediate sub to gas, since it very well may be utilized accurately in a gas motor. The ethanol fabricating techniques applied are compound processing (to discharge sugars from putting away starches), refining, maturation of the sugars, and drying. Ethanol can be utilized in petroleum motors as a substitute for fuel; it very well may be mixed with gas to any fixation. Current vehicle oil motors can work on blends of up to 15% bioethanol alongside oil/gas. Ethanol has lesser vitality thickness than of gas; this suggests it takes more fuel to produce a similar measure of work. An advantage of ethanol is its higher-octane rating than without ethanol gas open at the side of the road corner stores, which allows the ascent of a motor's pressure proportion for expanded warm proficiency. In high-elevation areas, a few states direct a blend of gas and ethanol as a winter oxidizer to bring down air contamination emanations.
Track 6: Bioenergy Applications
Biomass is continuously being used for current applications, for instance, dendro-control, co-age and Joined Warmth and Power age (CHP). Bioenergy is a change of biomass resources, for instance, rustic and boondocks developments, characteristic common waste, and essentialness items to accommodating imperativeness bearers including warmth, force, and transport empowers. Dependent upon the advantage of the openness and specific, money-related, and natural impact, these can be engaging different choices to non-sustainable power source-based applications. Bioenergy, a feasible force source resource particularly suitable for force, warming, and cooling in transport, will be at the focal point of this sectorial move in reasonable force source creation and use and is depended upon to wind up obviously the common sort of RES before 2020. In Biofuel Conference right now will talk about Bioenergy for Farming Creation, Photobioreactors, Energy in biomass, Microbial Electrochemical Cells, Assessment of overall bioenergy conceivable outcomes, Bioenergy progressing, Bioenergy repairing, Bioenergy structures.
Biomass is the natural asset got from plants that are made through photosynthesis. In particular, it very well may be alluded to sun-controlled vitality put away in the compound commitments of the normal material. Despite numerous preferences ordinary to supportable force source, biomass is charming considering the way that it is available endless wellspring of liquid transportation of biofuel. Bioenergy and Biofuel will overhaul and improve existing systems. In Biofuel Conference right now will examine about Biomass Resources for Bioenergy, Agriculture deposits, Forestry materials, Energy crops.
The development of their sending in the force area has just outpaced that of some other vitality source, including petroleum derivatives, which incorporate oil, coal and flammable gas. Renewables, in mix with vitality proficiency, presently structure the main edge of a broad worldwide vitality change. Sustainable wellsprings of Biofuel and Bioenergy especially wind and sunlight based have developed at an uncommon rate in the most recent decade and have reliably outperformed desires.
Track 9: Biohydrogen
Starting late, there is massive enthusiasm for hydrogen. There is no record of the age volume and use of hydrogen around the globe; be that as it may, use of hydrogen was foreseen to have accomplished 900 billion cubic meters in 2011. Treatment facilities are broad volume producers and purchasers of hydrogen. Today 96% of all hydrogen is removed from oil-based goods, with 48% from combustible gas, 30% from hydrocarbons, and 18% from coal, and around 4% by electrolysis. Oil-sands getting ready, gas-to-liquids and coal gasification broadens that are existing, require a colossal proportion of hydrogen, and is dared to raise the essential unmistakably inside an accompanying couple of years. Normal headings oversaw in numerous countries, increase the hydrogen demand at processing plants for gas-line and diesel desulfurization. Biohydrogen is portrayed as hydrogen conveyed normally, every now and again by green development, minute life forms, and archaea. Biohydrogen is a potential biofuel attainable from both improvement and from waste normal materials.
Track 10: Biomass Technologies
The Biomass Technologies join Liquid Biofuels from Biomass and Cellulosic Ethanol from Biomass. At Biofuel Conference right now will talk about Latest change Technologies in Biomass, Liquid Biofuels from Biomass, Trending Research from Biomass, Cellulosic Ethanol from Biomass. A couple of progressions for changing over bioenergy are business today while others are being guided or in inventive work. There are four sorts of change headways starting at now available, each appropriate for specific biomass sorts and achieving specific imperativeness things, for instance, Thermal Conversion, Thermochemical change, Biochemical change, Chemical change.
Track 11: Bioenergy Conversion
A front line sharpens which has allowed biomass feedstock's an early and unassuming section point into the essentialness promotes is the demonstration of co-ending a non-sustainable power source (ordinarily coal) with a biomass feedstock. Co-ending has different inclinations, especially where power creation is a yield. In Biofuel Conference right now will examine Biological change, Combustion, and Co-terminating, Gasification and Pyrolysis, Chemical transformation from Oil-bearing yields. Generally, biomass-to-vitality change propels need to deal with a feedstock which can be exceedingly factor in mass and imperativeness thickness, measure, moistness content, and irregular stock. An increasingly unequivocal appreciation of the physical and substance properties regulating the pyrolysis reactions has allowed the streamlining of reactor conditions fundamental for these sorts of pyrolysis.
Track 12: Food vs Fuels Debate
Food versus fuel is the circumstance concerning the peril of redirecting farmland or harvests for biofuels creation to the drawback of the nourishment supply. The biofuel and sustenance esteem exchange about worries extensive sees, and is a withstanding, questionable one in the composition. There is a dispute about the sentiment of the issue, what is causing it, and what can or should be rendered to fix the condition. This flightiness and helplessness is a direct result of the wide number of power outages and input circles that can vehemently or antagonistically impact the worth system. Additionally, the general characteristics of these positive and negative impacts change in the short and long terms and include conceded impacts. The insightful side of the open consideration is furthermore obscured by the significance of different money-related models and battling sorts of quantifiable assessment. Biofuel Conference right now will talk about Biofuel's impact on nourishment security, Nonfood crops for biofuels age, Agricultural modernization and its impact on society, Food, fuel, and expressways.
Track 13: Biorefineries
A biorefinery is a facility that integrates biomass conversion processes and equipment to produce fuels, power, and chemicals from biomass. Biorefining is the sustainable processing of biomass into a spectrum of marketable products and energy.
Track 14: Biodiesel
Biodiesel is a domestically produced, renewable fuel that can be manufactured from vegetable oils, animal fats, or recycled restaurant grease for use in diesel vehicles or any equipment that operates on diesel fuel. Biodiesel is mostly used as an additive to petroleum diesel.
Track 15: Algae Biofuels
Algal biofuel is an alternative to fossil fuel, which is generated by specific algae species from carbon dioxide. algal biofuel production usually relies on photoautotrophic culture that uses sunlight as a free source of light.
Track 16: Biogas
Biogas naturally occurring gas that is generated by the breakdown of organic matter by anaerobic bacteria and is used in energy production. 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.
The Bioeconomy can be defined as the sustainable development and conversation of biomass and biofuels into food, industrial products and energy.The primary research and development objectives of bioenergy and biofuel should be aimed at:
(1) Developing the best scientific, engineering, and technology solutions for converting lignocellulosic and MSW biomass together with agricultural and forest residues into clean energy (e.g., liquid fuels, chemical feedstock, electricity, and mechanical power).
(2) Minimizing water consumption and detrimental impacts of energy production on the environment (air pollution and global warming).
(3) Addressing long-term availability and sustainability issues.
Track 18: Bioeconomy
The Bioeconomy can be defined as the sustainable development and conversation of biomass and biofuels into food, industrial products and energy. The bioeconomy covers all sectors and systems that rely on biological resources. Bioeconomic is a progressive branch of social science that seeks to integrate the disciplines of economics and biology for the sole purpose of creating theories that do a better job of explaining economic events using a biological basis and vice versa.
Track 19: Energy and Environment
Energy and Environment research focuses on the generation, storage and efficient utilization of energy and natural resources and the assessment of the interaction between the environment and energy technologies in order to establish clean and renewable energy.
Track 20: Advances in Renewable Chemicals
Renewable chemicals are utilized in food processing, housing, textiles, environment, transportation, hygiene, pharmaceutical, and other applications. The renewable chemicals market is expanding primarily the resources of renewable chemicals, and the consumer’s inclination towards using eco-friendly products.
Track 21: Biomass Conversion Technologies
In Biomass conversion technologies, Biomass is converted to energy through various processes, including. Direct combustion (burning) to produce heat. Thermochemical conversion to produce solid, gaseous, and liquid fuels. Chemical conversion to produce liquid fuels. Biological conversion to produce liquid and gaseous fuels.
The biofuels market size is projected to reach USD 230.5 billion by 2025, with a CAGR of 5.10% from 2019 to 2025. The major factors driving the growth of the global biofuels market include the potential to reduce emissions. According to Emissions Gap Report 2018, the global greenhouse gas (GHG) emissions show no signs of peaking which would help to limit global warming. The global biofuels market is projected to grow at a high rate during the forecast period due to the renewability of biodiesel. According to WBA Global Bioenergy Statistics 2018, published by World Bioenergy Association, liquid biofuels especially biodiesel is the leading renewable solution for the transport sector as it would lead to environment-friendly use of biofuels in the transportation sector. For instance, In 2016, 3.43 Exa Joule (EJ) of biofuels was used in the transport sector accounting for 3% of the share in the total energy use in the transport sector.
Increasing use of crude glycerin from biodiesel production would act as an opportunity for the biofuels market, as crude glycerin can be used for multiple purposes uses such as for freeze protection for coal, and as a dust suppressant. However, Insufficient availability of all types of feedstocks such as algae, starch, and sugar would hinder the market growth, as all the feedstocks do not possess the same performance concern for the market. Key players in the biofuels market such as Archer Daniels Midland Company, Aceites Manuelita S.A., INEOS Group AG are actively focusing on signing contracts and agreements with utilities and industries to supply biofuels. Moreover, in 2018, Archer Daniels Midland Company signed a contract with DuPont Industrial Biosciences to develop, produce and market cellulase enzymes which consist mostly of cellulose, one of the feedstock types of biofuel market. This agreement would bring together substantial resources and bring new innovations to the biofuels market. The global biofuels market has been segmented based on fuel type, feedstock type, and region. On the basis of fuel type, the global market is segmented into biodiesel and ethanol. The ethanol segment is expected to dominate in the market, worldwide. This is due to the increasing demand for bioethanol as automobile fuel due to their environment-friendly characteristic to mitigate greenhouse gas emissions.
Bio alcohols and Bioethanol
Biomass Feed Stocks for Renewable Energy Generation
Renewable Biofuel and Bioenergy in the global energy transformation
Food vs Fuels Debate
Challenges in Research on Advanced Biofuels
Energy and Environment
Advances in Renewable Chemicals
Biomass Conversion Technologies