Meetings International invites all the participants across the globe to attend the International Conference on Biofuels & Bioenergy during July 16-17, 2018, Madrid, Spain. The theme of the conference is “Exploring the Advancements in Chemical Technology for Biofuels and Bioenergy” and to encourage young minds and their research abilities by providing an opportunity to meet the experts in the field of Biofuels & Bioenergy and Chemical Engineering from all over the globe.
Meetings International provides an international dais for scientists and Chemical Engineering experts to exchange ideas, knowledge and networking at its 100+ International Conferences.
Reason to Attend
Biofuel Conference is a platform set for you to come across highly qualified and experienced Scientists from around the globe working and researching on the developments of Biofuel Conference and Bioenergy Conference. This is the best chance to achieve the biggest array of members from everywhere throughout the world. Demonstrate, appropriate information meet with exceedingly qualified researchers, discuss recent researches, make a name and get worldwide acknowledgment at this 2-day occasion. Widely acclaimed speakers, the latest methods, strategies, and the freshest updates in Biofuels Conference and Bioenergy Conference are signs of this gathering. Be Part of it! This meeting concentrates on all the real perspectives in the field of Bioenergy Conference. It would be advantageous for every one of the young researches and students who would eagerly ready to go into corporate and also research fields related to the particular area of interest. This stage gives you the most obvious opportunity to frame cooperation with developing or set up organizations/Research foundations in the particular field.
Biofuels Conference is expecting the participants from all over the globe in various fields. This combination of audience will give an ideal blend to justify our theme “Exploring the Advancements in Chemical Technology for Biofuels and Bioenergy”. Biofuel Conference is expecting attendees from:
Biofuels Conference to be held in Madrid, Spain
Madrid is the capital of Spain and the largest municipality in both the Community of Madrid and Spain as a whole.
The Madrid urban agglomeration has the third-largest GDP in the European Union and its influences in politics, education, entertainment, environment, media, fashion, science, culture, and the arts all contribute to its status as one of the world's major global cities. Madrid is home to two world-famous football clubs, Real Madrid and Atlético de Madrid. Due to its economic output, high standard of living, and market size, Madrid is considered the major financial centre of Southern Europe and the Iberian Peninsula.
While Madrid possesses modern infrastructure, it has preserved the look and feel of many of its historic neighbourhoods and streets. Its landmarks include the Royal Palace of Madrid; the Royal Theatre with its restored 1850 Opera House; the Buen Retiro Park, founded in 1631; the 19th-century National Library building (founded in 1712) containing some of Spain's historical archives; a large number of national museums, and the Golden Triangle of Art, located along the Paseo del Prado and comprising three art museums: Prado Museum, the Reina Sofía Museum, a museum of modern art, and the Thyssen-Bornemisza Museum, which completes the shortcomings of the other two museums. Cibeles Palace and Fountain have become one of the monument symbols of the city. Madrid is the most visited city of Spain.
Biofuel Conference | Bioenergy Conference | Biodiesel Conference | Chemical Engeneering Conference | Biomass Conference | Biodegradation Conference | Sustainable energy Conference | Renewable energy Conference | Solar energy Conference | Wind energy Conference
Progressed biofuels are fuels that can be prepared from various sorts of biomass. Original biofuels are prepared from the sugars and vegetable oils shaped in arable harvests, which can be easily removed applying regular innovation. In correlation, progressed biofuels are produced using lignocellulose biomass or woody yields, farming buildups or waste, which makes it harder to extricate the essential fuel. Progressed biofuels advancements have been contrived in light of the fact that original biofuels produce has significant confinements. Original biofuels forms are advantageous yet controlled much of the time: there is a breaking point above which they can't yield enough biofuels without denying nourishment supplies and biodiversity. Numerous original biofuels depend on endowments and are not taken a toll focused with winning non renewable energy conference sources, for example, oil, and some of them yield just restricted ozone harming substance emanations funds. While considering outflows from creation and transport, life-cycle appraisal from original biofuels for most part of approach those of customary petroleum products. Progressed biofuels can help settling these inconveniences and can confer a more prominent extent of worldwide fuel supply moderately, reasonably and with bigger ecological interests. Nonfood crops for biofuels production. In Biofuel Conference in this session we will discuss about Lignocellulose Biomass, Thermochemical Routes, Syngas from Biomass, Second generation biofuels, Microbial pathways for advanced biofuels production, Synthesis of advanced biofuels, Advanced biofuels from pyrolysis oil.
Algae fuel or algal biofuels is a substitute to fluid fossil fuels that uses algae as its source of energy rich oils. Additionally, algae fuels are a substitute to normal known biofuels sources, for example, corn and sugarcane. Different organizations and government offices are supporting endeavors to decrease capital and working expenses and influence algae fuel creation monetarily achievable. Like petroleum product, algae fuel discharges CO2 when burnt, yet not at all like non-renewable energy source, algae fuel and different biofuels just discharge CO2 as of late pulled back from the air through photosynthesis as the green growth or plant developed. The energy emergency and the world food emergency have started enthusiasm for alga culture (cultivating algae) for making biodiesel and different biofuels using land unsuitable for farming. Among algal energizes' alluring attributes are that they can be developed with immaterial effect on new water assets, can be created utilizing saline and wastewater, have a high glimmer point, and are biodegradable and nearly innocuous to the earth if spilled. Algae cost more per unit mass than other progressed biofuel trims because of high capital and working expense, yet are proclaimed to create in the vicinity of 10 and 100 times more fuel for each unit zone. In Biofuel Conference in this session we will discuss about Harvesting and oil extraction system, Cyanobacterial biofuels production, Commercialization of algae biofuels, Wastewater based algae biofuels production, Algal bio sequestration, Advances in algal biofuel production, Biofuels from microalgae and Microbes.
Aviation biofuel is a biofuel used for airplane. It is figured by some to be the vital means by which the aviation industry can decrease its carbon impression. Following a multi-year specialized investigation from air ship producers, motor makers and oil organizations, biofuels were pushed for business use in July 2011. Since then, a few aircrafts have assessed with utilization of biofuels on commercial flights. The spotlight of the business has now bended to advanced sustainable biofuels (second era maintainable aviation fuels) that do not contend with food supplies nor are real purchasers of prime rural land or new water. In Biofuel Conference in this session we will discuss about Developing new hotspots for aviation biofuels, Commercialization of aviation biofuels, Applications of aviation biofuels, Jet biofuel, Green substitution powers in flights, Synthesis of aviation biofuel by means of Fischer-Tropsch process, Cost decrease arrangements, Large scale biogas generation and difficulties, Risk investigation of aeronautics fuels
Biomass is organic matter separated from living, or as of late living creatures. Biomass can be used as a source of energy and it frequently coordinates to plants or plant-based issues which are not utilized for sustenance or sustain, and are unequivocally called lignocellulosic biomass. Biomass can either be utilized directly by means of ignition to create warm, or optionally subsequent to changing it to various types of biofuel. Transformation of biomass to biofuel can be accomplished by different techniques which are basically ordered into: warm, compound, and biochemical strategies. Biomass is a sustainable wellspring of fuel to yield energy since waste deposits will prevail – in types of scrap wood, process residuals and forest resources and appropriately coordinated backwoods will dependably have extra trees, and we will constantly have crops and the unconsumed biological matter from those products. In Biofuel Conference in this session we will discuss about Conversion innovations, Sustainable feedstock advancement, Biomass and power, Industrial squander biomass, Recent improvements in feasible biomass, Perennial biomass feedstock's, Integrated biomass technologies.
Biogas usually alludes to a blend of different gasses shaped by the anaerobic disintegration of organic matter. Biogas can be produced from crude issues, for example, horticultural waste, civil waste, excrement, plant material, green waste, and sewage or sustenance squander. Biogas is a sustainable power source and in various cases it applies a restricted carbon impression. Biogas can be produced by maturation of biodegradable materials or anaerobic processing with anaerobic life forms, which breaks down material inside a secluded framework. Biogas is essentially methane (CH4) and carbon dioxide (CO2) and may have little hints of hydrogen sulfide (H2S), siloxanes and dampness. The gasses methane, carbon monoxide (CO) and hydrogen can be combusted or oxidized with oxygen. This vitality yield permits biogas to be profited as a fuel; it can be used for any warming reason, for example, cooking. It can likewise be drilled in a gas motor to change the vitality in the gas to power and warmth. In Biofuel Conference in this session we will discuss about Biogas from agricultural waste, Biogas from algae, New and conceivable substrates for biogas generation, Biogas technologies, Anaerobic packed-bed biogas reactors, Biogas generation.
Biodiesel demonstrates an animal fat-based or vegetable oil diesel fuel involving long-chain alkyl (methyl, ethyl, or propyl) esters. Biodiesel is usually made by chemically responding lipids (e.g., soybean oil, vegetable oil, animal fat (tallow) with a liquor producing unsaturated fatty acid esters. Biodiesel is recommended to be used in standard diesel motors and is consequently all around characterized from the vegetable and waste oils used to work fuel changed over diesel motors. Biodiesel can be utilized separately, or mixed with petro diesel in any extents. Biodiesel mixes can likewise be used as heating oil. In Biofuel Conference in this session we will discuss about Biodiesel Generation, Biodiesel feedstock's, Efficiency and financial arguments, Biodiesel to hydrogen-cell control, Crops for biodiesel generation, Biodiesel as automobile fuel, Cost powerful procedures for biodiesel creation, Biodiesel creation on industry level and scale up, Impact of biodiesel on contamination outflows and general wellbeing, Chemical Biomass to Liquid fuel transformation.
Biologically synthesized alcohols, most much of the time ethanol, and once in a while propanol and butanol, are shaped by the response of microorganisms and compounds through the maturation of sugars or starches, or cellulose. Biobutanol (likewise called bio gasoline) is frequently affirmed to give an immediate remain in to fuel, since it can be utilized absolutely in a gas motor. Ethanol fuel is the most broadly utilized biofuel around the world. Alcohol fuels are shaped by fermentation of sugars obtained from wheat, sugar beets, corn, molasses, sugar stick and any sugar or starch from which alcoholic mixers, for example, whiskey, can be delivered, (for example, potato and organic product squander, and so on.). The ethanol producing techniques connected are chemical processing (to discharge sugars from stored starches), refining, fermentation of the sugars and drying. Ethanol can be utilized as a part of petroleum motors as a substitute for fuel; it can be mixed with gas to any focus. Current auto oil motors can work on blends of up to 15% bioethanol alongside oil/fuel. Ethanol has lesser energy density than that of gas; this suggests it takes more fuel to create a similar measure of work. A benefit of ethanol is its higher octane rating than without ethanol fuel available at roadside corner stores, which allows the ascent of a motor's pressure proportion for expanded warm proficiency. In high-height areas, a few states coordinate a blend of fuel and ethanol as a winter oxidizer to bring down environmental contamination outflows. In Biofuel Conference in this session we will discuss about Bioethanol production, Bioalcohols from algae, Generations of bioalcohols and scope of advancement, Bioalcohols as automobile fuel, Scale up on industrial level, Bioethanol usage, Bioconversion of Lignocellulose into Bioethanol, Bioetanol as Fuel
Bioenergy is a never ending source of energy which can be accessed from substances obtained from biological origin. Biomass is referred to any organic matter which has sunlight stored in the form of chemical energy. As a fuel it might involve wood, straw, wood squander, sugarcane, compost, and numerous other side-effects from various horticultural procedures. In its most select sense it is an equivalent word to biofuel, which is a fuel acquired from natural sources. In its more extensive sense it incorporates biomass, the organic issue used as a biofuel, and additionally the social, logical, monetary and specialized fields related with using natural hotspots for vitality. This is a typical skepticism, as bioenergy is the energy developed from the biomass, as the biomass is the fuel and the bioenergy is the energy put away in the fuel. In Biofuel Conference in this session we will discuss about Bioenergy crop-Panicum virgatum, Bioenergy cropping systems, Bioenergy crops and algae, Biocatalysts' and bioenergy, Quantitative appraisal of bioenergy, Bioenergy feedstock, Stump gathering for bioenergy, Bioenergy Conversion, Development of bioenergy innovation and technology, Life cycle assessment of bioenergy system
Bioenergy is transformation of biomass assets, for example, rural and backwoods buildups, natural civil waste and vitality products to helpful vitality bearers including warmth, power and transport energizes. Biomass is progressively being utilized for current applications, for example, dendro-control, co-age and Joined Warmth and Power age (CHP). Contingent upon the asset accessibility and specialized, monetary and ecological effect, these can be appealing other options to non-renewable energy source based applications. Bioenergy, a sustainable power source asset especially appropriate for power, warming and cooling in transport, will be at the center of this sectorial move in sustainable power source creation and utilize and is relied upon to end up plainly the prevailing type of RES before 2020. In Biofuel Conference in this session we will discuss about Bioenergy for Farming Creation, Photo bioreactors, Energy in biomass, Microbial Electrochemical Cells, Assessment of worldwide bioenergy possibilities, Bioenergy on the move, Bioenergy mending, Bioenergy frameworks
Biohydrogen is depicted as hydrogen delivered naturally, frequently by green growth, microscopic organisms and archaea. Biohydrogen is a potential biofuel achievable from both development and from squander natural materials. As of late, there is an immense interest for hydrogen. There is no record of the generation volume and utilization of hydrogen around the world; however usage of hydrogen was anticipated to have achieved 900 billion cubic meters in 2011. Refineries are expansive volume makers and buyers of hydrogen. Today 96% of all hydrogen is extricated from petroleum products, with 48% from flammable gas, 30% from hydrocarbons, and 18% from coal and around 4% by electrolysis. Oil-sands preparing, gas-to-fluids and coal gasification extends that are existing, require an immense measure of hydrogen and is ventured to raise the prerequisite prominently inside the following couple of years. Natural directions managed in many nations, increment the hydrogen request at refineries for gas-line and diesel desulfurization. A noteworthy future part of hydrogen could be as a trade for non-renewable energy sources, once the oil stores are depleted. This application is however subject to the progression of capacity methods to empower legitimate capacity, dissemination and burning of hydrogen. In the event that the cost of hydrogen age, circulation, and end-client innovations diminishes, hydrogen as a fuel could infiltrate the market in 2020. Mechanical maturation of hydrogen, or entire cell catalysis, requires a limited measure of vitality, since splitting of water is expert with entire cell catalysis, to lessen the actuation vitality. This licenses hydrogen to be produced from any natural issue that can be replicated through entire cell catalysis as this procedure does not depend on the vitality of substrate. In Biofuel Conference in this session we will discuss about Algal biohydrogen, Bacterial biohydrogen, Fermentative biohydrogen generation, High-yield biohydrogen generation, Enhancing biohydrogen generation, Biohydrogen purging, Production of Hydrogen by Photosynthetic living beings, Emergency of the hydrogen economy.
A biorefinery is an inside that unions biomass change methods and rigging to manufacture invigorates, power, warmth, and chemicals from biomass. The biorefinery thought is parallel to the present oil refinery, which makes distinctive invigorates and things from oil. Biorefining is the supportable difference in biomass into a scope of bio-based things and bioenergy. By conveying distinctive things, a biorefinery misuses the diverse parts in biomass and their intermediates subsequently enhancing the regard secured from the biomass feedstock. A biorefinery, for instance, can deliver one or a couple of low-volume, yet high-regard, substance or nutraceutical items and a low-regard, however high-volume liquid transportation fuel, for instance, biodiesel. Meanwhile making force and process warm, by combined warmth and power (CHP) development, for its own specific use and possibly adequate accessible to be obtained of energy to the area utility. The high-regard things bolster benefit, the high-volume fuel helps address vitality issues, and the power creation cuts down imperativeness expenses and farthest point ozone hurting substance spreads from conventional power plant workplaces. But a couple of workplaces win that can be called bio-refineries, the bio-refinery by and by can't be totally capable. Future biorefineries may accept a urgent part in yielding chemicals and materials that are for the most part removed from oil. In Biofuel Conference in this session we will discuss about Types of biorefineries, Biorefining structures, Biorefining plan from algal and bacterial protein sources, Integrated biorefinery, Lignocellulosic material in biorefinery, Valorization of Biorefinery, Biowaste biorefinery.
Bioethanol feature on 2007, those overall yield of bioethanol may have been 49. 6 billion liters. Those strengthen yearly Growth rate (CAGR) about bioethanol dealing with volume from 2002 should 2007 landed at 19. 0%. Those u. Experienced with urban rot in light of deindustrialization, advancement created, government lodgin. What's more brazil are those universe specialist On bioethanol preparing. Their designation in the overall yield made up 87. 9%. The "billion tonal vision" will be An undertaking should section a billion tonsil for dry biomass for consistently to process bioethanol (and different biofuels) to dislodge 30% from guaranteeing what's to desire U. Experienced with urban rot as a result of deindustrialization, advancement created, government lodgin. Fuel consumption Eventually Tom's scrutinizing 2030. 69 a champion among the key parameters for An immense scale rebuilding of the u. Experienced with urban rot as a result of deindustrialization, designing envisioned, government lodgin. National fuel industry might be that about providing biomass unrefined material amid such an auxiliary rate What's more In a monetarily commendable cost. The growing cosset of fossil fills and furthermore those heightening social and current commonality with those regular impacts associated with the usage from asserting fossil fills require made those require for that is just a hint of a greater challenge viable fuel options. Bioethanol, arranged beginning with sustainable biomass for instance, sugar products of the soil materials, is acknowledged will make a champion among these choices, Furthermore it is by and by always handled broadly. In Biofuel Conference in this session we will discuss about Cost models to Bioethanol preparing, Delivering biomass Substrates to Bioethanol creation, Viable headway Also Bioethanol age. Bioethanol business part qualities more than 2007.
A few advancements for changing over bioenergy are business today while others are being guided or in innovative work. There are four sorts of transformation advancements as of now accessible, each suitable for particular biomass sorts and bringing about particular vitality items, for example, Thermal Conversion, Thermochemical change, Biochemical change, Chemical change. The Biomass Technologies incorporate Liquid Biofuels from Biomass and Cellulosic Ethanol from Biomass. In Biofuel Conference in this session we will discuss about Latest change Technologies in Biomass, Liquid Biofuels from Biomass, Trending Research from Biomass, Cellulosic Ethanol from Biomass.
Generally, biomass-to-energy transformation advances need to manage a feedstock which can be exceedingly factor in mass and vitality thickness, measure, dampness content, and discontinuous supply. A more definite comprehension of the physical and substance properties overseeing the pyrolysis responses has permitted the streamlining of reactorconditions essential for these sorts of pyrolysis. A cutting edge hone which has permitted biomass feedstock's an early and modest passage point into the vitality advertise is the act of co-terminating a non-renewable energy source (normally coal) with a biomass feedstock. Co-terminating has various preferences, particularly where power creation is a yield. In Biofuel Conference in this session we will discuss about Biological conversion, Combustion and Co-firing, Gasification and Pyrolysis, Chemical conversion from Oil-bearing yields.
Bioenergy Conference | Bioenergy Conversion Conference | Chemical Engeneering Conference | Biodegradation Conference | Sustainable energy Conference | Renewable energy Conference | Solar energy Conference | Wind energy Conference
There are two types of bioenergy being used today: "conventional" and "current". Customary utilization of biomass incorporates fuel wood, creature squander and conventional charcoal. Present day biomass advancements incorporate fluid biofuels delivered from straw and wood, modern cogeneration and bio refineries, biogas created through anaerobic processing of buildups, pellet warming frameworks and different advances. Utilization of customary biomass fuel is gone up against with arrangement of issues and difficulties, for example, low proficiency, work escalated, debasement of condition and outflow of wellbeing unsafe gasses. In Biofuel Conference in this session we will discuss about From waste products into renewable sources, From traditional biomass to present day bioenergy, From chemical to Biological Processes, From local fuel to worldwide commodity.
Biomass is the organic resource got from plants which is created through photosynthesis. Specifically it can be referred to sun powered energy stored in the compound obligations of the natural material. Notwithstanding many advantages normal to sustainable power source, biomass is alluring in light of the fact that it is present inexhaustible wellspring of fluid transportation of biofuel. The Bioenergy and Biofuel will upgrade and improve existing frameworks. Be that as it may, biomass could play in reacting to the country's vitality requests accepting, the financial and advances in change advances will make biomass powers and items all the more monetarily practical? The sustainable power source approaches in the European Union have just prompted a huge advanced energy blend which should additionally change till 2020. In Biofuel Conference in this session we will discuss about Biomass Resources for Bioenergy, Agriculture residues, Forestry materials, Energy crops.
Food versus fuel is the situation with respect to the danger of diverting farmland or harvests for biofuels creation to the downside of the food supply. The biofuel and sustenance value banter about concerns far reaching sees, and is a withstanding, dubious one in the writing. There is a contention about the feeling of the issue, what is making it, and what can or ought to be rendered to cure the circumstance. This unpredictability and vulnerability is because of the wide number of blackout and feedback circles that can emphatically or adversely influence the value framework. Besides, the relative qualities of these positive and negative effects change in the short and long terms, and involve deferred impacts. The scholarly side of the open deliberation is additionally darkened by the relevance of various monetary models and contending types of measurable examination. In Biofuel Conference in this session we will discuss about Biofuels effect on food security, Nonfood crops for biofuels generation, Agricultural modernization and its effect on society, Food, fuel and freeways.
At present utilized fluid biofuels, which incorporate ethanol delivered from crops containing sugar and starch and biodiesel from oilseeds, are alluded to as original biofuels. These energizes just utilize a part of the vitality possibly accessible in the biomass. Different procedures are as of now being created to deliver biofuels. In any case, it is indeterminate when such innovations will enter generation on a huge business scale. The generation of Biofuels should be possible from Biomass, Biodiesel from Biomass, and Biochemical from Biomass and Biogas from Biomass. In Biofuel Conference in this session we will discuss about Production of Biofuels from Biomass, Production of Biodiesel from Biomass, Production of Biochemicals from Biomass, Production of Biogas from Biomass.
Bio-carbon fluid, biofuel and gas are the results of warm deterioration of biomass. Gasification process is led to conventional reactors or in reactors with a fluidal field. Amid aqueous gasification process, hydrogen vitality, carbon oxide and some measure of methane and unrivaled hydrocarbons are created. Fluids got from biomass assets, for example, ethanol and bio-oils can be improved to deliver hydrogen in a procedure like gaseous petrol changing. Biomass inferred fluids can be transported more effectively than biomass encouraged stocks. The bioenergy innovation faces challenges as far as mechanical help, financial aspects and learning. In Biofuel Conference in this session we will discuss about Production and supply of strong biofuels, Advanced strong biofuels, Thermochemical transformation.
Bioenergy Conference | Chemical Engeneering Conference | Biomass Conference | Biodegradation Conference | Sustainable energy Conference | Renewable energy Conference | Solar energy Conference | Wind energy Conference
Sustainable power source is energy that is produced from regular procedures that are constantly recharged. This incorporates daylight, geothermal warmth, wind energy, tides, water, and different types of biomass. This energy can't be depleted and is continually reestablished. Biomass, is an inexhaustible natural issue, and can incorporate natural material got from living, or as of late living creatures, for example, wood, waste, and liquor fills. In Biofuel Conference in this session we will discuss about Solar Energy, Wind Energy, Energy efficiency, Energy-from-waste, Renewable chemicals.
Biofuels have been progressively explored as a probable alternative source of fuel and serve a key target for the future energy market that can play a vital role in preserving energy security. As the only direct substitute for fossil fuels, biofuels continue to grow in importance, despite a significant slowdown in investment. International trade remains active, with dynamic growth from the major exporting countries.
In 2010, worldwide biofuel production reached 105 billion liters (28 billion gallons US), up 17% from 2009, and biofuels provided 2.7% of the world’s fuels for road transport. Europe was the leading biodiesel market in 2009 with a production share of 49.8%, followed by the Americas with a production share of 32.8% and the Asia Pacific with a share of 4.4%. The European share in biodiesel production has been declining since 2001, while the share of the Americas and the Asia Pacific increased. The US is the second largest producer of biodiesel in the world, producing 17.7% of the world’s biodiesel in 2009. The biodiesel market in the US is expected to reach 2,822 million liters in 2010 and 6,453 million liters in 2020. However, of all the renewable sources of energy, biomass is unique in that it is effectively stored solar energy. It is also the only renewable source of carbon and can be processed into convenient solid, liquid, and gaseous fuels.
Universities in Asia pacific:
National University of Singapore
University of Hong Kong
KAIST - Korea Advanced Institute of Science & Technology
Nanyang Technological University, Singapore
Hong Kong University of Science and Technology
The Chinese University of Hong Kong
Seoul National University
City University of Hong Kong
Pohang University of Science & Technology
Universities in Middle East:
METU Department of Chemical Engineering
Middle East Technical University
Jordan University of Science and Technology
King Abdullah University of Science & Technology
King Abdulaziz University
King Saud University
King Fahd University of Petroleum and Minerals
Ain Shams University
United Arab Emirates University
Sultan Qaboos University
Masdar Institute of Science and Technology
Petroleum Institute Abu Dhabi
Universities in Europe:
University of Manchester
University of Nottingham
University of Sheffield
University of Birmingham
University of Edinburgh
University of Leeds
Rheinisch-Westfälische Technische Hochschule Aachen
Karlsruhe Institute of Technology
Politecnico di Milano
Universidad Politecnica de Valencia
Universitat de Barcelona
Delft University of Technology
Eindhoven University of Technology
Technical University of Denmark
Norwegian University of Science and Technology
National Technical University of Athens
Universities in USA:
University of Minnesota
University of Minnesota
University of Wisconsin-Madison
Georgia Institute of Technology
University of California
University of Pennsylvania
University of Michigan
Importance & Future Prospect:
Biomass is regarded as a most important renewable source of energy because it can be used as an alternative source for energy production. Natural sources for energy production are becoming extinct day by day. The main reason behind biomass energy production is that it can be produced from wood, plant and animal wastes, forestry wastes which indicate that biomass can be produced from those materials that are regarded as wasted materials which are again re-used and energy is produced. Biomass does not emit any harmful gases, produces clean energy, abundant and renewable, and reduces the usage of fossil fuels for energy production and also it can be used to create different products. The main reason behind biomass usage is it reduces emission of greenhouse gases.
Usage of biomass will grow within the coming years. The clean electricity generation will be enough for more than 17,000 UK householders a year and the usage of renewables for electricity generation in UK is increased by 60 per cent and the share of electricity is around 9.7 per cent in 2012 and 15.5 per cent in 2013. Around 3.9 million tonnes of biomass, mostly in the form of woodchips and pellets, were burnt to generate electricity during those 12 months. One tonne of pellets translates into two tonnes of greenwood. Usage of biomass will grow exponentially within coming years. The market value of electricity generated from biomass in the United States was over $45 billion in 2011. About 70% of all biomass in the world is used in the residential sector. 14% is used in industry and 11% is transformed into electricity, heat, or energy such as liquid fuel or biogas.
International Conference on Biofuels & Bioenergy seeks to bring all chemical engineers, scientists, Noble Laureate, researcher, research scholar, students and people together who are involved in field of Biofuels & Bioenergy and provide a global platform to discuss about their innovation, exchange ideas and interaction with each other.