7th International Congress on Biofuels and Bioenergy - 2017
Conference series LLC invites all the participants from all over the world to attend 7th International Congress on Biofuels and Bioenergy during October 02-04, 2017 Toronto, Canada. This includes prompt keynote presentations, Oral talks, Poster presentations and Exhibitions. Theme of the Biofuels conference and 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 Biofuels, Bioenergy, Biomass and Biogas. Biofuels conference is designed to explore various applications in different fields.
- Event Type:
- Oct. 2-4, 2017
- Holiday Inn Toronto International Airport
- Toronto , ON , Canada
Join us for two intensive and interesting days of discussing contemporary Biofuels and Bioenergy Expo research. We invite you to contribute and help to shape the Biofuels, Biogas, Biomass, Bio refineries, Bioenergy congress through submissions of your research abstracts, papers and e-posters. Bioenergy International is cordially inviting for presentation at the conference.
This conference will bring together experts from the world of government, law, industry, and agriculture to discuss emerging developments in the field of biofuels and renewable energy. This year's conference is of particular importance as the issue of biofuel as an alternative to fossil fuel has taken center stage in the United States. We are also honored to welcome the participation and supporters
The emergence of biofuels as an alternative energy source has generated considerable excitement and controversy. Unsustainable levels of greenhouse gas emissions, mainly due to fossil fuel combustion, have led to increased focus on renewable energy sources. However, even as low emission fuels created from organic matter offer a beacon of hope for sustainable energy, they also present their own unique challenges. Critics claim that producing these fuels is itself fossil fuel intensive, obviating many of their benefits. In addition, rapid growth in demand for feedstock’s (i.e., corn, sugar, soybeans, etc.) could lead to the diversion of cropland from ‘food crops' to ‘fuel crops' and accelerate an international loss of biodiversity. Clearly, the issue presents both exciting implications and potential adverse impacts Canada has played a leadership role in the development of biofuels since few decades and the nation's increased reliance on their use offers a case study on the integration of biofuels into a growing economy. Indeed, during the next thirty years, Brazil aims to exchange the equivalent of 120 million tons of petroleum for agriculture energy. This concept of “agri energy” includes the expansion of the ethanol sector and the implementation of an efficient and sustainable chain of production for biofuels.
By contrast, the United States has only recently begun devoting significant resources to the field and is now investing heavily in new technologies to integrate biofuel extraction from its powerful agricultural production process. The U.S. expects to invest more than $10 billion on ethanol capacity and $1.8 billion on biodiesel in the near future; that investment is expected to fund the production of up to 6.5 billion gallons of ethanol and nearly two billion gallons of biodiesel.
The enormous promise of biofuels is matched only by the complexity of the issues they raise. This conference will offer a forum for experts from diverse disciplines to discuss and debate the pitfalls and promise of biofuels. In order to adequately explore the complex issues relating to biofuels as a source of renewable energy, their role in replacing fossil fuel and reducing greenhouse gases, and the related problems that would arise from such a shift, this year's conference will feature six panels exploring the issues from differing perspectives.
Introduction on biofuels industry next:
Solar panels, wind turbines and electric cars have become the most visible symbols of a global shift to renewable energies. But bioenergy holds significant potential to help speed the transition to a more sustainable and secure energy system. By 2050, a new generation of sustainable biofuels could provide over a quarter of the world’s total transport fuel, according to a recent report by the International Energy Agency. And biomass-based fuels offer the only viable low-carbon alternative to high energy density liquid fuels, including diesel and jet fuel.
To achieve that scenario, researchers are developing fuels from wastes, residues and non-fuel crops that are environmentally and socially sustainable.
The emergence of Biofuels production as an alternative energy source has generated considerable excitement. Unsustainable levels of greenhouse gas emissions mainly due to fossil fuels combustion, have led to increased focus on renewable energy sources.
Over the world, there has been a phenomenal enthusiasm for biofuels over the previous decade. The primary purpose behind this is the unpredictability in raw petroleum costs, which is influencing the monetary state of numerous nations that don't have critical oil and gas stores to bolster their developing economy. High reliance on non-renewable energizes has made monetary and in addition natural concerns, for example, rising nursery gas emanations. A few creating and created economies have executed administrative changes, mixing targets, and statutory standards while utilizing biofuels to counterbalance the developing natural dangers connected with routine powers. For more details please visit- http://biofuels-bioenergy.conferenceseries.com
Importance & Scope:
Increasing energy demand, environmental change and carbon dioxide (CO2) outflow from fossil fuels make it a high need to look for low carbon vitality assets. Biofuels have been progressively investigated as a conceivable option wellspring of fuel and speak to a key focus for the future vitality showcase that can assume an essential part in keeping up vitality security. It is basically considered as conceivably modest, low-carbon vitality source.
Biofuels-2017 is the occasion intended for the International experts to encourage the dispersal and utilization of exploration discoveries identified with Biofuels and Bioenergy as substitution powers. It is an investigative stage to meet kindred key chiefs all-around the Biotech associations, Academic Institutions, Industries, and Environment Related Institutes and so on, and making the congress an impeccable stage to share and pick up the information in the field of bioenergy and biofuels. Biofuels - 2017 is a stage to accumulate visionaries through the examination talks and presentations and set forward numerous interesting techniques of creation and scale up of renewable Energy and making the congress a flawless stage to share capability.
Global Biofuels Market Will Grow Steadily At A CAGR Of 5.87% during the Period 2016-2020: Research Moz
In Canada, environmental objectives rather than energy security has been the driver behind the development of federal and provincial policies and programs designed to encourage the development of a domestic renewable fuels industry. Approximately 17.8 billion liters of ethanol were produced in 2006, using 2.9 million hectares of land. In 2007, the Government of Canada committed to reducing Canada’s total GHG emissions by 20 percent from 2006 levels by 2020. Energy is a joint federal and provincial responsibility in Canada and it is for this reason that programs and incentives to support energy development are found at both levels of government. In Canada, many of the provincial governments put in place provincial biofuel blend mandates well ahead of the federal strategy for the development of a domestic renewable fuels industry that was put into place in 2006/2007. Due to the focus on at the federal level and provincial level on emissions, foreign suppliers can achieve a competitive edge by supplying lower carbon intensity (CI) fuels. This is particularly true in the case of ethanol. value paid to makers in 1980 was US$700 for 1000 liters; over the mediating years, picks up in innovation and economies of scale have driven the expense down, coming to as low as US$200 per 1000 liters in 2004. By 2004, ethanol in Canada had turned out to be financially focused with gas in light of worldwide costs for oil (proportionate to US$40 per barrel). At these costs, the creation of ethanol from sugarcane is much less expensive that from different harvests, for example, corn, wheat and sugar beet.
Why to attend???
Meet highly qualified and experienced Scientists from around the world Biofuels & Bioenergy, this is your single and best opportunity to reach the largest assemblage of participants from all over the world. Conduct demonstrations, distribute knowledge meet with highly qualified scientists, discuss new researches, and receive name recognition at this 3-day event. World-renowned speakers, the most recent techniques, tactics, and the newest updates in Biofuels and Bioenergy are hallmarks of this conference. Be Part of it! This conference focusing on all the major aspects in the fields of Biofuels & Bioenergy It would be beneficial for all the students who ever willing to enter into corporate as well as research fields targeting to the respective field. Chance to form alliance with emerging or established companies / Research institutes in the respective field.
Market analysis of Biofuels
The demand for biofuels is growing enormously. From the evidence available today, we believe that biofuels could, with developments in technology and favorable policy constitute up to 30% of the world transport fuel mix by 2030. The advantages of biofuels – whether in greenhouse gas benefits, energy security or rural development-mean that many governments are keen to foster the industry through current phases of technology development to deliver material scale and reduced costs. Our belief is that the industry can be developed sustainably, provided appropriate feedstock’s are grown, which do not adversely compete with food, using good land management to minimize environmental impact. This will require development of appropriate sustainability standards; it will not be easy, but by engaging in the industry, responsible businesses will work out appropriate business models and want to see enforcement of standards across the industry. This paper sets out the characteristics of the global fuels market, the significance of joint industry studies with car manufacturers and the choices around land use that society must make. The approach taken by BP is then described whereby guiding principles have been defined to set the boundaries of our impact on ecosystems. Characteristics of the biofuels market: its s size and growth rate. The world is in a state of biofuels fever. In 2006 biofuel constituted 49 bn liters, or 3%, of the 1,600 billion liter market for gasoline and diesel fuel. By 2015 the biofuels market is likely to have tripled to 155 billion liters. In practical terms that is an increase of around 10 billion liters per year over ten years. In terms of current ethanol yields of 5,250ltrs / ha, this equates to an increase of land use for biofuels of approximately 17,000 square km per year. The bulk of the global demand for ethanol and biodiesel comes from a few major regions. The USA accounted for very nearly 50% of global ethanol consumption in 2006, with Brazil taking 36% of global volumes. The EU accounted for 75% of global biodiesel consumption in 2006. The reason why we believe the feverish rate of growth is likely to materialize is because, with no carbon beneficial substitutes available in the near term, biofuels are being promoted by governments. Clear examples of this are the trends of regulations in the EU, and the intentions announced in the US. BP is already a major player in the global biofuels market. In 2006 BP blended 3,016 million liters of ethanol into gasoline – a 25% increase on the previous year. Thus BP is already well exposed to the biofuels fever – and the theme of this paper is to suggest how the industry can tap the heat of the fever in a positive sense.