OMICS International and its subsidiary Conference Series LLC

2nd World Bioenergy Congress and Expo 2017


Conferences series LLC invites all the participants from all over the world to attend  2nd World Bioenergy Congress and Expo during June 29-30, 2016 in Barcelona, Spain. Which includes prompt keynote presentations, Oral talks, Poster presentations and Exhibitions. Theme of the Bioenergy conference is Upgrading sources of energy for future generation with an objective to encourage young minds and their research abilities by providing an opportunity to meet the experts in the field of Bioenergy. Bioenergy congress is designed to explore various applications in different fields.

Event Type:
Jun. 29-30, 2017
Madrid , Spain

Join us for two intensive and interesting days of discussing contemporary Bioenergy Expo research. We invite you to contribute and help to shape the Bioenergy congress through submissions of your research abstracts, papers and e-posters. Bioenergy International is cordially inviting for presentation at the conference.

Bioenergy technology mainly focuses on usage of Biomass Energy as an alternative source for Energy Production for future generation and aims to bring together leading academic scientists, researchers and research scholars to exchange and share their experiences and research results. Bioenergy 2017 aims to promote various researches on Biomass among scientists, academia and industries. Bioenergy 2017 offers various topics for interaction including Biomass, Bioenergy research, Algal Biofuel Production, Biomass conversion Processes to useful Energy. For the period 2014–2022 based on the historical years – 2012 and 2013. Projections have been provided for installed capacity (MW), power generation (Million KWh), and revenue (USD Million). The report includes the key market dynamics affecting the demand for biomass power generation feedstock and technologies. As a part of our market dynamics analysis, we have analyzed market drivers, market restraints, and market opportunities. A comprehensive competitive landscape, which includes company market share analysis and market attractiveness analysis, has also been provided in this report. Conferences series LLC has been and will be organizing Bioenergy Conferences and events to put front the research advances. The gathering will highlight the opportunities in both Biomass Conferences and Biofuel Conferences.

Target Audience:

  • Bioproduct companies
  • Bioenergy Associations
  • Bioenergy Researchers
  • Bioenergy Industry
  • Bioenergy Scientists
  • Nuclear energy Engineers
  • Bioenergy technology Engineers
  • Chemical Engineers
  • Renewable energy Organizations and Associations

Conferences series LLC invites all the participants from all over the world to attend  2nd World Bioenergy Congress and Expo during June 29-30, 2016 in Barcelona, Spain. Which includes prompt keynote presentations, Oral talks, Poster presentations and Exhibitions.

Theme of the Bioenergy conference is Upgrading sources of energy for future generation with an objective to encourage young minds and their research abilities by providing an opportunity to meet the experts in the field of Bioenergy. Bioenergy congress is designed to explore various applications in different fields.

Conference Series LLC organizes a conference series of 3000+ Global Events with over 600+ Conferences, 1200+ Symposiums and 1200+ Workshops in USA, Europe & Asia with support from 1000 more scientific societies and publishes 700+ Open access journals which contains over 30000 eminent personalities, reputed scientists as editorial board members.

Track 1: Biomass feed stocks for renewable energy generation

Biomass is the organic matter derived from plants which is generated through photosynthesis. In particular it can be referred to solar energy stored in the chemical bonds of the organic material. In addition to many benefits common to renewable energy, biomass is attractive because it is current renewable source of liquid transportation of biofuel. The Bioenergy Conference and Biofuel Conferences will optimize and enhance existing systems. However, biomass could play in responding to the nation's energy demands assuming, the economic and advances in conversion technologies will make biomass fuels and products more economically viable? Therenewable energy policies in the European Union have already led to a significant progress, energy mix should further change till 2020.

Track 2: Biomass

Biomass is biological material derived from living, or recently living organisms. It most often refers to plants or plant-based materials which are specifically called lignocellulosic biomass. As an energy source, biomass can either be used directly via combustion to produce heat, or indirectly after converting it to various forms of biofuel. Conversion of biomass to biofuel can be achieved by different methods which are broadly classified into: thermal, chemical, andbiochemical methods. Wood remains the largest biomass energy source to date; examples include forest residues (such as dead trees, branches and tree stumps), yard clippings, wood chips and even municipal solid waste. In the second sense, biomass includes plant or animal matter that can be converted into fibers or other industrial chemicals, including biofuels. Industrial biomass can be grown from   numerous types of plantsincluding miscanthus, switchgrass, hemp, corn, poplar, willow,sorghum, sugarcane, bamboo, and a variety of tree species, ranging from eucalyptus to oil palm (palm oil). Biomass can be converted to other usable forms of energy like methane gas or transportation fuels like ethanol and biodiesel. There is research involving algal, or algae-derived, biomass due to the fact that it is a non-food resource and can be produced at rates five to ten times faster than other types of land-based agriculture, such as corn and soy. Using biomass as a fuel produces air pollution in the form of carbon monoxide, carbon dioxide, NOx (nitrogen oxides), VOCs (volatile organic compounds), particulates and other pollutants at levels above those from traditional fuel sources such as coal or natural gas in some cases (such as with indoor heating and cooking) Utilization of wood biomass as a fuel can also produce fewer particulate and other pollutants than open burning as seen in wildfires or direct heat applications. Black carbon – a pollutant created by combustion of fossil fuels, biofuels, and biomass – is possibly the second largest contributor to global warming.

Track 3: Bioenergy Conversion

The process to convert biomass solid raw material to fuel gas or chemical feedstock gas (syngas) is called gasification. Chemical conversion of gas would be expensive and there are 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, asmetabolic engineering of microbial catalyst, will make this technology a viable option for reducing our dependency on fossil fuels. Different conversion methods are gas production, Pyrolysis , Anaerobic digestion, Biorefineries, Bioethanol production and sugar release from biomass. A new Bioenergy International aimed at developing countries is now on the horizon.

Track 4: Renewable Energy

Renewable energy is energy that is generated from natural processes that are continuously replenished. This includes sunlight, geothermal heat, wind energy, tides, water, and various forms of biomass. This energy cannot be exhausted and is constantly renewed. Biomass, is a renewable organic matter, and can include biological material derived from living, or recently living organisms, such as wood, waste, and alcohol fuels.

Track 5: Bioenergy Transition

Biomass plant material and animal waste IS used to create transportation fuels and generate electricity. Biomass energy is derived 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 yield power, heat, steam, and fuel. Biomass is used byfood processing industries, animal feed industry, and wood products industry, which includes construction and fiber products (paper and derivatives), along with chemical products made from these industries that have diverse applications including detergents, biofertilizers, and erosion control products. The biggest opportunity for the global bioenergy technology is the increasing demand for electricity across the world.

Track 6: Processes for Bioenergy

Bio-carbon liquid, biofuel and gas are the products of thermal decomposition of biomass. Gasification process is conducted to ordinary reactors or in reactors with a fluidal field. During hydrothermal gasification process,hydrogen energy, carbon oxide and some amount of methane and superior hydrocarbons are produced. Liquids derived from biomass resources such as ethanol and bio-oils can be reformed to produce hydrogen in a process similar to natural gas reforming. Biomass derived liquids can be transported more easily than biomass feed stocks. The bioenergy technology faces challenges in terms of technological assistance, economics and knowledge.        

Track 7: Biogas

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 material testing 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 8: Biodiesel

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. Meeting strict technical fuel quality and engine performance specifications, it can be used in existing diesel engines without modification and is covered by all major engine manufacturers’ warranties, most often in blends of up to 5 percent or 20 percent biodiesel. It is produced at plants in nearly every state in the country.

Track 9: Biofuels

Biofuels are produced from living organisms or from metabolic by-products (organic or food waste products). In order to be considered a biofuel the fuel must contain over 80 percent renewable materials. It is originally derived from the photosynthesis process and can therefore often be referred to as a solar energy source. Biofuels are not new. There are several factors that decide the balance between biofuel and fossil fuel use around the world. Those factors are cost, availability, and food supply.


Track 10: Bioenergy Applications

Bioenergy is conversion of biomass resources such as agricultural and forest residues, organic municipal waste and energy crops to useful energy carriers including heat, electricity and transport fuels. Biomass is increasingly being used for modern applications such as dendro-power, co-generation and Combined Heat and Power generation (CHP). Depending on the resource availability and technical, economic and environmental impact, these can be attractive alternatives to fossil fuel based applications. Bioenergy, a renewable energy resource particularly suitable for electricity, heating & cooling in transport, will be at the core of this sectorial shift in renewable energy production and use and is expected to become the dominant form of RES before 2020.

Track 11: 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. There is also ongoing research and development into the use of municipal solid wastes to produce ethanol fuel. Brazil and the United States account for over 70 percent 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. If in doubt use the standard SP95 or SP98 Octane unleaded fuel which continues to be available alongside the new fuel. Researchers have recently launched a proposal to cultivate massive amounts of seaweed or algae. They laims that the project could occupy about ten thousand kilometers of seaweed farm and they estimated that the farm would be able to produce bioethanol from algae, as much as 20 million kiloliters or 5.3 billion gallons of bioethanol per year.

Track 12: Biomass Technology

Biomass technologies break down organic matter to release stored energy from the sun. The process used depends on the type of biomass and its intended end-use. There are a number of technological options available to make use of a wide variety of biomass types as a renewable energy source. Conversion technologies may release the energy directly, in the form of heat or electricity, or may convert it to another form, such as liquid biofuel or combustible biogas. While for some classes of biomass resource there may be a number of usage options, for others there may only one appropriate bioenergy technology.

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