biomass-2020
About Conference
EuroSciCon warmly respects each one of the individuals and supporters from worldwide to attend "16th International Conference on Biomass and Bio products Engineering” amid October 12-13, 2020 in Vienna, Austria.
Euro Biomass 2020 meeting is going to be a dynamic platform and the renowned researchers of the world would gather to enlighten the arising issues, innovations and integrated approaches towards the newly evolving Biomass & Bioproducts. The conference will be a versatile multidisciplinary crowd of globally perceived specialists presenting their views on the topic “Creation of green planet with biomass technology”. Therefore, we would like to take the opportunity to invite the best scientists and business people from around the world for the meeting. The sessions will be in varying educational formats for interactive informal exchanges. We invite young researchers and students to attend the meeting for a better understanding of the current aspects and trends in chemical engineering practices through this conference.
Euro Biomass 2020 includes facilities like a designated registration area, a refreshment break, and a gala lunch. Biomass technologists and scientists of chemical background can join the EuroSciCon as an international member to receive discounts on registration.
So come and join the leading experts and professionals on 12 and 13 October 2020 in Vienna, Austria to discuss the ways to develop new technologies that will renew Biomass & Bioproducts.
Target audience for the conference:
- Academicians
- Directors/CEO.
- Managers/Engineers.
- Researchers from top universities
- Scientists from top research institutes
- Scholars
- Nanotechnology Students, Scientists,Researchers,Societies
- Agriculture & Chemical
- Chemical Faculty
- Chemical Associations and Societies
- Business Entrepreneurs
- Training Institutes
- Manufacturing Medical Devices Companies
- Chemical & Environment Engineers
- Industrial Professionals
- Students
Why to attend
Biomass & Bio products Engineering tiles a platform to globalize the research by installing a dialogue between industries and academic organizations and knowledge transfer from research to industry. Biomass & Bio products Engineering 2019 aims in proclaim knowledge and share new ideas among the professionals, industrialists and students from research areas of Chemical, Environmental to share their research experiences and indulge in interactive discussions and special sessions at the event. With members from around the world focused on learning about Food , this is your single best opportunity to reach the largest assemblage of participants from all over the globe. Conduct demonstrations, distribute information, meet with the current and potential customers, make a splash with a new product line, and receive name recognition at this 2-day event.
World-renowned speakers, the most recent techniques, tactics and the newest updates along with the Advances in the fields of Chemical and Environment.
Come be Part of it...!
Sessions &Tracks
Track 1: Biomass Technologies
These technologies can then be followed by an array of secondary treatments (stabilization, dewatering, upgrading, refining) depending on specific final products. The wide range of biomass sources available in nature includes feedstock characterized by different chemical compositions, physical status, toxicity and energy content. The feedstock quality represents a relevant aspect influencing the decision on the most suitable valorization technology to be adopted. In particular, despite the energy recovery efficiency should represent the key driver for the choice, economic competitiveness and market opportunity play the main role towards the commercial development of new technologies and strategies.
Track 2: Biomass Gasification & Pyrolysis
Biomass gasification consists in the decomposition of a solid. Gasification is a process that converts organic- or fossil fuel-based carbonaceous materials into carbon monoxide, hydrogen and carbon dioxide. This is achieved by reacting the material at high temperatures (>700 °C), without combustion, with a controlled amount of oxygen and/or steam. For example wood, by a reactive gas, for example air, to obtain a gaseous fuel. During this process, biomass is subjected to four successive thermochemical phenomena : drying, pyrolysis, oxidation and reduction.
Pyrolysis is the thermal decomposition of biomass occurring in the absence of oxygen. It is the fundamental chemical reaction that is the precursor of both the combustion and gasification processes and occurs naturally in the first two seconds. The products of biomass pyrolysis include biochar, bio-oil and gases including methane, hydrogen, carbon monoxide, and carbon dioxide. Depending on the thermal environment and the final temperature, pyrolysis will yield mainly biochar at low temperatures, less than 450 0C, when the heating rate is quite slow, and mainly gases at high temperatures, greater than 800 0C, with rapid heating rates. At an intermediate temperature and under relatively high heating rates, the main product is bio-oil.
Track 3: Agro-Bioenergy
Energy plays a large role in agricultural and food value chains, especially with regard to the processing of food (see Energy within Food and Agricultural Value Chains). Yet, the agricultural and food sector also has a large impact on the emission of Greenhouse Gases. Due to an ever-growing population, and the increasing scarcity of fossil fuels, the world will need more food that is produced with less energy, or alternative non-fossil-fuel based energy sources, such as renewable energy technologies. Like wind, solar, and other renewable energy sources, bioenergy can make a positive impact on our atmosphere by lessening our dependence on climate change-inducing fossil fuels.
Track 4: Bioenergy Technologies
Production of energy crops could potentially compete for land with food cropping as demand for biomass increases. Biomass customers may be locked in long-term supply contracts with a single supplier making it difficult to get competitive pricing in the future. Alternative impacts are similar to those covered in the District Heating and Combined Heat and Power pages. The non-destructive pilot market is estimated to be valued at USD 12.98 Billion in 2015 and is projected to outstretch USD 18.88 Billion by 2020, at a CAGR of 7.78% from 2014 to 2020.
Track 5: Bioenergy Resources
Agricultural biomass which could be pre-owned for energy production is defined as biomass residues from field agricultural crops and biomass from the concomitant of the processing of agricultural products. In the last decade, the demand for energy wood in Europe increased and experts anticipate a further increase in future due to socio-political changes. The largest renewable propellant used in Europe is wood which can be used in non-identical forms from sticks to pellets to sawdust. In some countries, like Poland and Finland, wood meets more than 80% of renewable-energy demand. Europe consumed 13m tonnes of wood pellets in 2012, corresponding to International wood Markets Group, a Canadian company.
Track 6: Production of Biofuels
Biofuels are previously a small but rapidly growing contributor to the transport fuels market. In 2005, global fuel ethanol manufacture was approximately 36,000 million litres and biodiesel approximately 4,000 million litres. This is sufficient to displace roughly 2% of global gasoline utilization and 0.3% of global diesel consumption. These amounts are modest but growing rapidly. It is typically acknowledged that bioenergy can make a serious contribution in meeting energy security and economic development goals, as well as helping to diminish GHG emissions. Increasing desire of electricity and environmental concerns has put the pressure on countries to increase the focus on renewable energy.
Track 7: Biofuels and Energy Security
Biofuels are previously a small but rapidly growing contributor to the transport fuels market. In 2005, global fuel ethanol manufacture was approximately 36,000 million litres and biodiesel approximately 4,000 million litres. This is sufficient to displace roughly 2% of global gasoline utilization and 0.3% of global diesel consumption. These amounts are modest but growing rapidly. It is typically acknowledged that bioenergy can make a serious contribution in meeting energy security and economic development goals, as well as helping to diminish GHG emissions. Increasing desire of electricity and environmental concerns has put the pressure on countries to increase the focus on renewable energy.
Track 8: Renewable chemicals
Renewable energy is energy which is obtained from the renewable resources, geothermal heat, wind, sunlight, waves, rain and tides are the naturally replenished on a human timescale. They provide energy in four important areas such as transportation, water heating/cooling, rural energy services and electricity generation. In many countries the renewable energy power generation has grown a result of clean energy policies. Geothermal power, tidal power and biomass power are starting to make strides in the market but the largest alternative energy source is hydro power.
Track 9: Bio refining technologies
A bio refinery is a facility that integrates biomass conversion processes and equipment to produce fuels, power, and value-added chemicals from biomass. Bio refinery is analogous to today’s petroleum refinery, which produces multiple fuels and products from petroleum. By producing several products, a bio refinery takes advantage of the various components in biomass and their intermediates, therefore maximizing the value derived from the biomass feedstock.
Track 10: Bio products & Bio systems engineering
Bio-products from bio resources which can be produced by recycling Engineering wastes. This deals with design and enhancement of processes and technologies leading to sustainable manufacture of bio products produced from renewable biological resources. Bio products Engineers study the basic design of molecules of resources to develop industrial and consumer products which are environmental friendly, From biofuels, renewable energy, and bioplastics to paper products and "green" building materials such as bio-based composites, developing sustainable solutions by bioproducts engineers is needed to meet the world's growing materials and energy demand.
Track 11:Green technology
The technology that is considered environmentally friendly based on its production process or supply chain. It also may refer to a means of energy production that is less harmful to the environment than more traditional ways of generating energy, such as burning fossil fuels.
Track 12: Biodiesel & Biogas
Biodiesel is a renewable, clean-burning diesel replacement that is reducing U.S. dependence on foreign petroleum, creating jobs and improving the environment. Made from a diverse mix of feedstocks including recycled cooking oil, soybean oil, and animal fats, it is the first and only EPA-designated Advanced Biofuel in commercial-scale production across the country and the first to reach 1 billion gallons of annual production.
Biogas typically refers to a mixture of different gases produced by the breakdown of organic matter in the absence of oxygen. Biogas can be produced from raw materials such as agricultural waste, manure, municipal waste, plant material, sewage, green waste or food waste. It is a renewable energy source and in many cases exerts a very small carbon footprint.
Track 13: Bioalchol & Bioethanol
The principle fuel used as a petroleum substitute is bioethanol. Bioethanol is mainly produced by the sugar fermentation process, although it can also be produced by the chemical process of reacting ethylene with steam. The main source of sugar required to produce ethanol comes from fuel or energy crops. These fuel crops are normally grown specifically for energy use and include maize, corn and wheat crops, waste straw, willow, sawdust, reed canary grass, cord grasses, Jerusalem artichoke, Myscanthus and sorghum plants.
Track 14: Bio power Generation Techniques
Biomass power is carbon neutral electricity generated from renewable organic waste that would otherwise be dumped in landfills, openly burned, or left as fodder for forest fires.When burned, the energy in biomass is released as heat. If you have a fireplace, you already are participating in the use of biomass as the wood you burn in it is a biomass fuel.
Market Analysis
Biomass for the production of electricity and heat, or to produce liquid fuels for the purpose of transport. It is available in many forms such as agricultural products, forestry products, and other waste. On the advancement of the utilization of energy from renewable sources, the proportion of biofuels in transport should increase to at least 10% in various regions by 2020. In Finland, the objective is set at 20%, and it is evaluated this can be delivered altogether in local industries, as long as the activities officially in progress will be effective and extra mechanical scale biofuel plants would be constructed. The review on the condition of projects is in progress in Finland and outlines current research activity in advancing waste and by-product based biofuels.
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.
Between 2000 and 2013, fuel ethanol, biodiesel, and hydrogenated vegetable oil yield increased from 17.7 to 116.5 billion liters. This exceptional increment has been driven by administrative interventions
Characteristics of the energy sector in Dubai
- versatile structure of energy production with high proficiency
- indigenous energy sources cover just 1/3 of the energy demand
- co2 tax on fuels initiated earlier in the 1990s, EU-focuses to decrease co2 outflows – 40 % by 2030
Exceptional targets set by the UAE government to expand the share of sustainable transport fuels to 40 % by 2030 and also to quit utilizing coal in energy production and to divide the utilization of imported oil for local use. Dubai is the leading producer of renewable diesel in the world with an annual production capacity of 2.6 million tons.
Fuel ethanol generation has increased relentlessly in the United States since the 1980s when it was given driving force by the need to decrease energy dependence on outside provisions. The momentum has proceeded as generating costs have fallen, and as the U.S. Clean Air Act has specified a level of inexhaustible fuels to be blended with gas. The portion of yearly U.S. corn generation used to make ethanol increased from around 1 percent in 1980 to around 20 percent. and ethanol yield increased from 175 million gallons to about 5.0 billion gallons over a similar period.
Professional Attendance
Euro Biomass 2019 will include driving keynote speakers, session speakers, and moderators will identify demonstrating their examination on the topics related to Biofuel Scientists and Biotechnology, Chemical Engineering, Renewable Energy production and processing for Different waste products, agricultural products, and forestry products from beginning to end. Professors, researchers, Chemical-engineers, students from the field of chemical engineering, bioenergy and biofuel industries
Academics - 68%
Industries -21%
Others-11%
Learn More
Chemical Engineering Universities in Europe
University of Cambridge| Biorefineries conferences| University of Oxford| Biofuels conferences| Imperial College London| Biomass conferences| ETH Zurich – Swiss Federal Institute of Technology Zurich| Biodiesel conferences| Wageningen University & Research| Bioproducts conferences| University of Edinburgh| Biogas conferences| Karolinska Institute| Renewable energy conferences| King’s College London| Bioethanol conferences| École Polytechnique Fédérale de Lausanne| Bioenergy conferences| Heidelberg University| Butanol conferences| Uppsala University| Petroleum conferences| LMU Munich| Technical University of Munich| Applied Biochemistry conferences| Ghent University| Lund University |Biofuels conferences | University of Glasgow| Humboldt University of Berlin| Renewableenergy conferences|University of Manchester| Pierre and Marie Curie University| Biogas conferences| University of Dundee| Utrecht University| University of Göttingen| Petroleum conferences| University of Geneva| University of Helsinki| Biorefineries conferences| University of Tübingen| Stockholm University| University of Lausanne| Biomass conferences| University of Zurich| University of Freiburg| Biofuels conferences| University of St Andrews| Paris Sciences et Lettres – PSL Research University Paris| Butanol conferences| University of Bristol| Trinity College Dublin| University of Groningen| Biofuels conferences 2019 Europe| University of Aberdeen| University of Bonn| University of Exeter| Bioenergy conferences| Aarhus University|
Chemical Engineering Universities in USA
Harvard University| Biofuels conferences 2019 USA| Stanford University| Biomass conferences 2019 Asia| Massachusetts Institute of Technology| Bioenergy conferences| Johns Hopkins University| Biofuels conferences 2019 Europe| Princeton University| Petroleum conferences| California Institute of Technology| Butanol conferences| Yale University| Bioproducts conferences| University of Chicago| Biofuels conferences 2019 Asia| University of California, San Diego| Butanol conferences| Cornell University| Biomass conferences| Columbia University| Biorefineries conferences| Duke University| Renewable energy conferences| University of Pennsylvania| Biofuels conferences| University of California, Berkeley| University of California, Los Angeles| Renewable energy conferences| University of Michigan| Biodiesel conferences| University of California, Davis| Washington University in St Louis| Bioethanol conferences| University of Wisconsin-Madison| Petroleum conferences| Northwestern University| Bioproducts conferences| Emory University| Bioenergy conferences|University of Minnesota| University of North Carolina at Chapel Hill| Biorefineries conferences| University of Texas at Austin| Biomass conferences| University of California, Santa Barbara| Bioethanol conferences| University of Illinois at Urbana-Champaign| Renewable energy conferences| University of Colorado Boulder| Biofuels conferences 2019 USA| Pennsylvania State University| Michigan State University| Biofuels conferences 2019 Asia| Vanderbilt University| University of Maryland, College Park| University of California, Riverside|
Chemical Engineering Universities in Asia
The University of Tokyo|National | Biofuels conferences 2019 Asia| University of Singapore (NUS)| Biofuels conferences 2019 Europe| Kyoto University| Petroleum conferences| University of Hong Kong (HKU)| | Bioenergy conferences| Peking University| | Biofuels conferences 2019 USA| Seoul National University (SNU)| Renewable energy conferences| National Taiwan University (NTU)| Osaka University| Biomass conferences| Tsinghua University| Petroleum conferences| The Chinese University of Hong Kong (CUHK)| Fudan University| Bioproducts conferences| The Hong Kong University of Science and Technology (HKUST)| Biodiesel conferences| Taipei Medical University|Mahidol University| Petroleum conferences| KAIST–Korea Advanced Institute of Science and Technology| Biorefineries conferences| Yonsei University| Biodiesel conferences| Shanghai Jiao Tong University| Petroleum conferences| Nanyang Technological University (NTU)| Biomass conferences| Chulalongkorn University| Tohoku University| Tokyo Medical and Dental University| Kyushu University| Nagoya University| Biofuels conferences| Hokkaido University| Sungkyunkwan University| Biorefineries conferences| University of Science and Technology of China| Biorefineries conferences| Pohang University of Science and Technology (POSTECH)| Korea University| Universiti Malaya (UM)| Biorefineries conferences| Zhejiang University| Biomass conferences| Keio University| Biofuels conferences| Indian Institute of Science| Biodiesel conferences| Tokyo Institute of Technology| Universiti Kebangsaan Malaysia (UKM)|
Biomass and Bio products-Related Conferences
Biomass Trade Summit Europe 2019 Rotterdam - The Netherlands,16th January 2019 - 17th January 2019 |The Global Event For The Ethanol And Biofuels Industry Steigenberger Wiltcher's Hotel,Brussels,06 - 08 November 2018| EUBCE 2019-27TH European Biomass Conference & Exhibition Lisbon, Portugal 27th -30 may 2019| 5th Latin American Congress on Biorefineries from Laboratory to Industrial Practice, January 7-9, 2019, Concepcion, Chile| ICBIB 2019 : 21st International Conference on Bioenergy and Innovative Biotechnology Copenhagen, Denmark June 11 - 12, 2019|International conference on Biofuels and Bioenergy San Francisco, CA, USA April 29 - May 01, 2019 |27TH European Biomass Conference & Exhibition 27th -30 may 2019, Lisbon,Portugal
Biomass and Bio products-Societies and Associations
Europe:
The European Biomass Association| European Biomass Industry Association| European Algae Biomass Association| European Biogas Association| Renewable Fuels Association| AEBIOM European Bioenergy Association| World Bioenergy Association| The Bioenergy Association of Finland| European Biodiesel Board| European Waste-to-Advanced Biofuels Association| Renewable Energy Associations| European Renewable Ethanol| European Pellet Council| International Council on Clean Transportation| The Bioenergy Association of Finland
USA:
American Biofuels Council (ABC)| American Council on Renewable Energy (ACORE)| American Ecological Engineering Society| American Society of Agricultural and Biological Engineers| Association of Energy Engineers (AEE)| Biomass Energy Research Association (BERA)| Biomass Energy Resource Center (BERC)| The Biomass Thermal Energy Council (BTEC)| Canadian Renewable Fuels Association (CRFA)| Energy Efficiency and Renewable Energy Information Center (EERE)| Great Lakes Regional Biomass Energy Program| Institute of Biological Engineering| The International Biochar Initiative (IBI)| National Biodiesel Board| New York State Biomass Energy Alliance| Pellet Fuels Institute (PFI)| Renewable Fuels Association (RFA)| Vermont Biofuels Association
Asia-Pacific:
BioEnergy Society of Singapore| Asian Biomass Association| BioEnergy Council of India| IBSCE International Bioenergy| Bioenergy Association of New Zealand| Asia-Pacific Biomass Energy Technology| Bio Energy Association| World Biogas Association| Asia-Europe Foundation (ASEF)| Asia Wind Energy Association| International Solar Energy Society| Asia Clean Energy Forum| AsiaSolar PV Innovsation & Cooperation Forum| Bioenergy Crop Research Institute| National Institute of Crop Science| Central Leather Research Institute (CSIR)| Bio Energy Association| Asia-Europe Foundation (ASEF)| South Asia Biosafety Program (SABP)| International Solar Energy Society| Asia Clean Energy Forum| AsiaSolar PV Innovation & Cooperation Forum
Biomass and Bio products-Journals
Biofuel Research Journal (BRJ)| Journal of Petroleum & Environmental Biotechnology| Archives in Chemical Research| Trends in Green Chemistry| Journal of Organic & Inorganic Chemistry| Journal of Fundamentals of Renewable Energy and Applications| Journal of Bioprocessing and Biotechniques| International Journal of Waste Resources| Journal of Petroleum and Environmental Biotechnology| Fuel| Energy & Fuels| Journal of the Energy Institute| Materials for Renewable and Sustainable Energy| China Petroleum Processing and Petrochemical Technology| Journal of the Japan Petroleum Institute| Energy and Environmental Sciences| Environmental Research Letters| Environmental and Climate Technologies| Biotechnology for Biofuels| Renewable Energy| Solar Energy
Biomass and Bio products-Companies in Europe
BioDiesel Technologies GmbH | Ageratec Biodiesel Company | Petrotec AG | Ceimici Novel BV | Green Fuels Ltd. | Incbio | CT Systems | RecOil Project | Cater Oils Ltd | MÜNZER Bioindustrie GmbH | GreenFuels Bioingenieria SL | BHR Biofuels Ltd | GlobeCore GmbH | Scandinavian Biogas Fuels AB | PDM Group | JS Power Limited | Informa Ltd | Abengoa Bioenergy | Onboard Energy | Seva Energie AG | ERGIL GROUP | BIOENERGY 2020+ GmbH | Algenol Biofuels | Icon Scientific | Andel Ltd | AFRISO-EURO-INDEX GmbH | Bioenergy Crops Ltd. | eralytics GmbH | Novozymes | Amec Foster Wheeler | Lux Research | VTU Holding GmbH | ANDRITZ AG | Neste | ELKOPLAST CZ, s.r.o. | PROjEN PLC | Nehlsen International | Akzo Nobel Base Chemicals (ANBC) | MBP Trading SA | Aumkiipure | Biomass and Bioenergy Consulting | Clarke Energy | Axion Group - Axion Consulting | AirProtekt Limited | AVA GmbH u. Co. | GlobeCore GmbH | Koprulu Machine Co. | HUSS Technologies GmbH | PowerCell Sweden AB | MionTec GmbH | Agri | New Energy Systems | European Biomass Industry Association (EUBIA) | Pieralisi Group | The European Biomass Association (AEBIOM) |
Biomass and Bio products-Companies in USA
3Degrees | 5 boro biofuel | A2BE Carbon Capture LLC | AE Biofuels Inc formerly | Marwich II Ltd | AHL-TECH| AXI LLC | Abundant Biofuels | Acciona SA | Acorn Technology Corporation | Agni UK Inc | AgriFuel Company | Agribiofuels LLC | Agrivida | Algenol Biofuels | Algodyne Ethanol Energy Inc | Allopartis Biotechnologies Inc | Allylix | Alternative Energy Consultants | Alternative Energy Technology Inc formerly | The Alternative Energy Technology Center Inc |Alternative Liquid Fuels (ALF) | Alterra Bioenergy LLC | Colorado Centre for Biorefining and Biofuels C2B2 | Conergy AG | Continental Biofuels Corporation | Coolidge Petrosun Optimum Biodiesel Plant | Coulee Region Bio Fuels LLC | CropEnergies | D1 Oils Plc | Dieselgreen Fuels | Propel Biofuels |
Biomass and Bio products-Companies in Asia
Bankchak Petroleum | GlycosBio | Green Biologics | LanzaTech | Novozymes | Shengquan Group and Praj | PTT | Sinopec | TMO Renewables | Vinythai | Wilmar | Special recognition: Boeing | JK BioEnergy | Nishant Bioenergy P Ltd | Hefei Debo Bioenergy Science & Technology Co.,Ltd | ANDRITZ MeWa GmbH | PRODESA Medioambiente | Capistrano Biodiesel System | Biomass Asia Conference 2013 | The International Renewable Energy Agency (IRENA) | Kirloskar Integrated Technologies Limited | LAMBION Energy Solutions GmbH | Advanced Biofuel Center | Colsen International b.v. | Biodiesel Business Academy | Acta Group | Pöyry Energy | International Hydropower Association (IHA) | Zhengzhou Zhengyang Machinery | Respose Waste Management & Research Pvt. Ltd, | The Energy and Resources Institute (TERI) | AFM-Forest Ltd | MAFA i Ängelholm AB | Vitone Eco S.r.l.