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Scientific Program
18th World Bioenergy Congress and Expo, will be organized around the theme “Green Revolution: Lets go green to get our globe clean”
Bioenergy 2023 is comprised of 20 tracks and 12 sessions designed to offer comprehensive sessions that address current issues in Bioenergy 2023.
Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.
Register now for the conference by choosing an appropriate package suitable to you.
It is a branch of biology that deals with anatomy, biophysics, cell and molecular biology, computational biology, ecology and evolution, environmental biology, forensic biology, genetics, marine biology, microbiology, molecular biosciences, natural science, neurobiology, physiology, zoology and many others.
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 2-1Trending Research from Biomass
- Track 2-2Bioenergy for Agricultural Production
- Track 2-3Energy in biomass
- Track 2-4Microbial Electrochemical Cells
Renewable Energy is normally defined as any energy resource’s that can be naturally renew or regenerated over a short time and which is directly derived from the sun (solar energy),indirectly from sun such as wind energy, hydropower energy, bioenergy ,or from other mechanisms of natural resources (geothermal energy, tidal energy). Renewable energy only includes energy derived from organic and natural resources it doesn’t include inorganic resources. REN21 is an energy policy network that brings government and non-governmental organisation together and other organisations to learn from one another and build successes in advance renewable energy. Renewable energy which is replaced by a natural process as the rate of process is faster than the rate which is consumed. 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 3-1Energy-from-waste
- Track 3-2Renewable chemicals
- Track 3-3Wood energy
- Track 3-4Waste energy
- Track 3-5Solar Energy
- Track 3-6Wind Energy
- Track 3-7Nuclear Energy
- Track 3-8Tidal Energy
- Track 3-9Compressed Natural Gas
- Track 3-10Energy efficiency
- Track 3-11Hydropower
- Track 3-12Photo bioreactors
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. Biogas can be produced by anaerobic digestion with anaerobic bacteria, which digest material inside a closed system, or fermentation of biodegradable materials.
- Track 4-1Agriculture biomass and energy production
- Track 4-2Waste Biomass to energy
- Track 4-3 Conversion technologies (pyrolysis, gasification, biological conversion)
- Track 4-4Sustainable feedstock development
- Track 4-5Biomass and electricity
- Track 4-6Industrial waste biomass
- Track 4-7Trending Research from Biomass
- Track 4-8Jet fuel for Heavy Machines from Biomass
Solar energy has being derived from natural sources that doesn’t harm the behavioural and environmental factors. The energy which is taken from the sun is converted into solar energy (thermal or electrical) for further use. Fuel production is also done from solar energy with the help of high temperature. In energy storage, energy is capture which is produced at one time and is store for future use. Economics of solar energy depends upon usages and it is always varies from country to country. Solar panels are greater way to lock solar electricity rates. Solar also increases the value of place where it is plentily available. Wind energy produces from wind to generate electricity. It mechanical preforms the energy to produce large amount of energy for large use. It can be a good replacement to fossil fuel, renewable, widely distributed and produces no greenhouse gases and small space for installing. Wind farms consists of many wind turbines individually which are connected to the electric power network. Offshore wind is stronger than on land and has less impact on appearance of the landscape. About the production and capacity it depends upon the usage in every country. The effects on the atmosphere are less difficult than those of other sources.
- Track 5-1Wind Energy
- Track 5-2Tidal Energy
- Track 5-3Nuclear Energy
Renewable chemicals are used for increasing the use of renewable resources rather than fossil fuels. Renewable chemicals contain all the chemicals which are produced from renewable feedstock such as microorganisms, biomass (plant, animal, and marine), and agricultural raw materials. Renewable chemicals are utilized in several applications across different Chemical industries such as in food processing, housing, textiles, environment, transportation, hygiene, pharmaceutical, and other applications. Renewable chemicals are mainly available as ketones, alcohols, organic acids, and bio-polymers. They are used in surfactants and lubricants, consumer goods, resins, and plastics for environmental purpose. There are diverse technologies available in chemical engineering which are used for making renewable chemicals The renewable chemicals market is expanding primarily the resources of renewable chemicals, and the consumer’s inclination towards using eco-friendly products. The high cost and certain subjects related to the production of renewable chemicals are the factors that are hampering the development of this market. Presently Europe forms the largest market for renewable chemicals, but Asia-Pacific is driving the market growth, and is expected to override the renewable chemicals market by 2018.
- Track 6-1Chemical engineering in metal refining
- Track 6-2Chemistry in nanotechnology
- Track 6-3Chemistry in computing
- Track 6-4Biomedical applications of chemical engineering
Pollution is a grievous change in the physical or characteristic of air, water and soil that may ruinously impact the life or make potential prosperity risk of any living being. Pollution is one the genuine troubles looked by world today. Contamination is the nearness of a poison in nature and is frequently the after effect of human activities. Contamination detrimentally affects the earth. Creatures, fish and other amphibian life, plants and people all endure when contamination isn't controlled.
It is a field that associates with Earth science, Ecology, Physics, Biology, Physics, Chemistry etc.. and it is mainly work on the understanding the earth processes, evaluating alternative energy systems, natural resource management and the effect of global climate changes and it bring the system approach of environmental analysis and this field improves the visibility of environmental issues and create the new field of study.
- Track 8-1Earth science and Ecology
- Track 8-2Environmental Chemistry
- Track 8-3Environmental Engineering
- Track 8-4Environmental Geology
- Track 8-5Environmental pollution
- Track 8-6Social issues and the Environment
- Track 8-7Restoration Ecology
This new ‘agriculture strategy’ was put into practice for the first time in India in the Kharif season of 1966 and was termed HIGH-YIELDING VARIETIEIS PROGRAMME (HYVP). This programme was introduced in the form of a package programme since it depended crucially on regular and adequate irrigation, fertilizers, high yielding varieties of seeds, pesticides and insecticides.
Renewable energy and energy efficiency are generally said to be the "twin pillars" of property energy policy. Each resource should be developed so as to stabilize and scale back dioxide emissions. There are numerous energy policies on a worldwide scale in reference to energy exploration, production and consumption, starting from commodities firms to automobile makers to wind and star producers and business associations. Recent focus of energy economic science includes the subsequent issues: climate change and climate policy, property, energy markets and economic process, economic science of energy infrastructure, energy and environmental law and policies and warming together with exploring varied challenges related to fast the diffusion of renewable energy technologies in developing countries. Most of the agricultural facilities within the developed world are mechanized as a result of rural electrification. Rural electrification has created important productivity gains; however it additionally uses plenty of energy. For this and alternative reasons (such as transport costs) during a low-carbon society, rural areas would want obtainable provides of renewably created electricity.
- Track 10-1Solar Power & Artificial Synthesis
- Track 10-2Space Based Solar Power (SPSV)
- Track 10-3Geothermal Energy
It mainly involves natural energetic processes which will be controlled with very little pollution. Anaerobic digestion, geothermic power, wind power, small-scale hydropower, solar power, biomass power, periodic event power, wave power, and a few styles of atomic power belongs to the green energy. Once energy is purchased from the electricity network, the ability reaching the buyer won't essentially be generated from Green energy sources. The native utility company, utility, or state power pool buys their electricity from electricity producers World Health Organization could also be generating from fuel, nuclear or renewable energy sources. In several countries Green energy presently provides a really bit of electricity, generally contributing 2% to 5% to the overall pool. Green energy customers either obligates the utility corporations to extend the quantity of green energy that they purchase from the or directly fund the green energy through a green power supplier. Green economy can be defined as an economy that aims at reducing environmental risks and ecological scarcities, which aims for property development while not degrading the atmosphere in keeping with the United Nations setting Programme. It closely connected with ecological economic science, however contains a lot of politically applied focus. A green economy is thought of together that is low carbon, resource economical and socially comprehensive. It closely connected with ecological economic science, however contains a lot of politically applied focus. A low-carbon economy additionally called low-fossil-fuel economy, or decarbonized economy is an economy supported low carbon power sources that so contains a negligible output of greenhouse emission emissions into the setting region, however specifically refers to the greenhouse emission CO2. Greenhouse emission emissions as a result of human action area unit progressively either inflicting global warming or creating global climate change worse.
- Track 11-1Macroeconomics
- Track 11-2Sustainable Agriculture
- Track 11-3Emission Reduction
- Track 11-4Recycling role in Green Economy
- Track 11-5Green energy & Green power
- Track 11-6Local Green Energy System
- Track 11-7Green Energy Labeling
- Track 11-8Prologue Green Banking
- Track 11-9Green Finance & Credit Cycle
Bioenergy 2022 facilitates a unique platform for transforming potential ideas into great business. The present meeting/ conference create a global platform to connect global Entrepreneurs, Proposers and the Investors in the field of Biofuels, Biomass, Biogas, bioenergy and Renewable Energy and its allied sciences. This investment meet facilitates the most optimized and viable business for engaging people in to constructive discussions, evaluation and execution of promising business.
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 by food 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 13-1From waste products into renewable resources
- Track 13-2From traditional biomass to modern bioenergy
- Track 13-3Chemical to Biological Processes
- Track 13-4From local fuel to global commodity
Energy and environment are co-related in the technological and scientific aspects including energy conservation, and the interaction of energy forms and systems with the physical environment. The levels of atmospheric carbon dioxide has increased by 31% between 1800 and 2000, going from 280 parts per million to 367 parts per million. Scientists predict that carbon dioxide levels could be as high as 970 parts per million by the year 2100. Different factors are responsible for this development, such as progress with respect to technical parameters of energy converters, in particular, improved efficiency; emissions characteristics and increased lifetime. Various environmental policies have been implemented across the globe for reduction of GHG emissions for improvement of environment.
- Track 14-1Energy and Sustainability
- Track 14-2Climate Change
- Track 14-3Climate Change
- Track 14-4Global Warming
- Track 14-5Waste Management
- Track 14-6Biodiversity
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 15-1Thermochemical conversion
- Track 15-2Production and supply of solid biofuels
- Track 15-3Advanced solid biofuels
- Track 15-4Production and supply of bio methane
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 16-1Advances in biodiesel process
- Track 16-2Crops for biodiesel production
- Track 16-3Biodiesel as Automobile fuel
- Track 16-4Advances in Biodiesel technology
- Track 16-5Enzymatic biodiesel production
Biofuels are fuels that can be processed from numerous types of biomass. First generation biofuels are processed from the sugars and vegetable oils formed in arable crops, which can be smoothly extracted applying conventional technology. In comparison, advanced biofuels are made from lignocellulosic biomass or woody crops, agricultural residues or waste, which makes it tougher to extract the requisite fuel. Advanced biofuel technologies have been devised because first generation biofuels manufacture has major limitations. First generation biofuel processes are convenient but restrained in most cases: there is a limit above which they cannot yield enough biofuel without forbidding food supplies and biodiversity. Many first generation biofuels rely on subsidies and are not cost competitive with prevailing fossil fuels such as oil, and some of them yield only limited greenhouse gas emissions savings. When considering emissions from production and transport, life-cycle assessment from first generation biofuels usually approach those of traditional fossil fuels. Advanced biofuels can aid resolving these complications and can impart a greater proportion of global fuel supply affordably, sustainably and with larger environmental interests.
- Track 17-1Biofuels production and utilisation
- Track 17-2Algae Biofuels
- Track 17-3viation Biofuels
- Track 17-4Nonfood crops for biofuels production
- Track 17-5Advances in biofuel production
- Track 17-6Biofuels impact on food security
- Track 17-7Second generation biofuels
- Track 17-8Next generation feed stock for biofuels
The Energy comes from Natural sources such as sunlight, tides, winds, plants, algae etc.. , it plays an important role for any country for their sustainable growth as well as eradication foreign energy imports and will help to improve local economic opportunities , these alternative energies said to be not harmful to the humans , energy and environmental sources.
- Track 18-1Green Processing and solar energy
- Track 18-2Waste to Energy
- Track 18-3Green Architecture
- Track 18-4Recycling
- Track 18-5Green Nanotechnology
- Track 18-6Growth of renewables
- Track 18-7Geothermal development
- Track 18-8Emerging technologies in Green energy
- Track 18-9Geothermal heat
- Track 18-10Fossil fuels
Waste-to-energy (WtE) is the process of generating energy in the form of electricity and/or heat from the primary treatment of waste, or the processing of waste into a fuel source. WtE is a form of energy recovery. Most WtE processes generate electricity and/or heat directly through combustion, or produce a combustible fuel commodity, such as methane, methanol, ethanol or synthetic fuels. The term WtE is commonly used in specific reference to incineration which burns completely combusted waste at ultra-high temperatures allowing for energy recovery. Modern incineration facilities use pollution control equipment to prevent the release of emissions into the environment. Currently incineration is the only WtE technology that is economically viable and operationally feasible at commercial scale.
- Track 19-1Agriculture, Forest Waste & waste management
- Track 19-2Waste to energy Technologies
- Track 19-3Transforming the Strategy into Reality
- Track 19-4Thermal Treatment
- Track 19-5Waste, Energy & climate Change Policy
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. Biogas can be produced by anaerobic digestion with anaerobic bacteria, which digest material inside a closed system, or fermentation of biodegradable materials. Biogas is primarily methane (CH4) and carbon dioxide (CO2) and may have small amounts of hydrogen sulphide (H2S), moisture and siloxanes .Biogas is produced as landfill gas (LFG), which is produced by the breakdown of biodegradable waste inside a landfill due to chemical reactions and microbes, or as digested gas, produced inside an anaerobic digester. By converting cow manure into methane biogas via anaerobic digestion, the millions of cattle in the United States would be able to produce 100 billion kilowatt hours of electricity, enough to power millions of homes across the United States. In fact, one cow can produce enough manure in one day to generate 3 kilowatt hours of electricity; the dangers of biogas are mostly similar to those of natural gas, but with an additional risk from the toxicity of its hydrogen sulfide fraction. Biogas can be explosive when mixed one part biogas to 8-20 parts air.
- Track 20-1Advances in biogas technology
- Track 20-2Biogas from algae
- Track 20-3Advances in biogas process design
- Track 20-4New & possible substrates for biogas production
- Track 20-5Biogas technologies
- Track 20-6Biogas from waste vegetables
- Track 20-7Biogas plants
- Track 20-8io-natural gas (Biomethane, Hydrogen)
- Track 20-9Biogas from agriculture waste