16th International Conference on Green Energy and Sustainability warmly welcomes each one of the individuals and supporters from worldwide to attend during July 20-21 , 2020 in Paris, France , which will emphasize on the theme ‘Green Energy: Brightening Up the Sustainable World’. This Congress will serve as an excellent experience and opportunities to enhance one's career. This conference is focused on all the major fields of Green Energy & recycling.
Scientific sessions on Green Energy 2020 which includes Green energy, Renewable Energy, Green Nanotechnology, Green Processing and Solar Energy, Biomass and Bioenergy, Green Economy, Sustainable Agriculture, Climate Change, Batteries and Fuel cells, Recycling,Wind energy, Nuclear Fission Emission.
Paris is leading city of France, as well as famous city in the World.The destinations which make Paris special are World famous Eiffel Tower, Musée du Louvre, Cathédrale Notre-Dame de Paris, Avenue des Champs-Élysées Musée d'Orsay, Opéra National de Paris, Arc de TriompheSeine River Cruises, Musical Concerts at Sainte-Chapelle, Luxembourg Gardens, and many more.
Session 1: Green energy
Environmentally friendly power vitality originates from normal sources, for example, daylight, wind, downpour, tides, plants, green growth and geothermal warmth. These vitality assets are sustainable, which means they're normally renewed. Interestingly, non-renewable energy sources are a limited asset that take a huge number of years to create and will keep on lessening with use.
Session 2 : Renewable energy
Sustainable power source, regularly alluded to as spotless vitality, originates from characteristic sources or procedures that are continually renewed. For instance, daylight or wind continue sparkling and blowing, regardless of whether their accessibility relies upon time and weather.While sustainable power source is frequently thought of as another innovation, bridling nature's capacity has for some time been utilized for warming, transportation, lighting, and the sky is the limit from there.
Session 3 : Green nanotechnology
Green nanotechnology alludes to the utilization of nanotechnology to improve the ecological manageability of procedures creating negative externalities. It likewise alludes to the utilization of the results of nanotechnology to upgrade supportability. It incorporates making green nano-items and utilizing nano-items on the side of sustainabilityGreen nanotechnology has been depicted as the improvement of clean innovations, "to limit potential ecological and human wellbeing dangers related with the assembling and utilization of nanotechnology items.
Session 4 : Solar energy
Sun oriented vitality, aradition from the Sun equipped for creating heat, causing concoction responses, or producing power. The aggregate sum of sun oriented vitality occurrence on Earth is endlessly in abundance of the world's present and foreseen vitality prerequisites. On the off chance that appropriately outfit, this profoundly diffused source can possibly fulfill all future vitality needs. In the 21st century sun oriented vitality is relied upon to turn out to be progressively appealing as a sustainable power source.
Session 5 : Biomass and bio energy
Biomass is biological material derived from living or recently living organisms. In the context of producing bioenergy, it typically refers to agricultural byproducts and residues, woody waste products, and crops and microbes grown specifically for fuel. Bioenergy is a renewable form of energy produced from biomass. Development of bioenergy could contribute to long-term environmental and economic sustainability, and help mitigate the climate impact of using fossil fuels.
Session 6 : Green economy
The green economy is defined as economy that aims at making issues of reducing environmental risks and ecological scarcities, and that aims for sustainable development without degrading the environment. It is closely related with ecological economics, but has a more politically applied focus.The 2011 UNEP Green Economy Report argues "that to be green, an economy must not only be efficient, but also fair. Fairness implies recognizing global and country level equity dimensions, particularly in assuring a just transition to an economy that is low-carbon, resource efficient, and socially inclusive.
Session 7 : Batteries and fuel cells
A power module is an electrochemical cell that changes over the concoction vitality of a fuel (regularly hydrogen) and an oxidizing operator frequently oxygen into power through a couple of redox responses. Power modules are unique in relation to most batteries in requiring a ceaseless wellspring of fuel and oxygen (normally from air) to support the substance response, while in a battery the compound vitality for the most part originates from metals and their particles or oxide that are generally effectively present in the battery, aside from in stream batteries. Energy units can create power persistently for whatever length of time that fuel and oxygen are provided.
Session 8 : Recycling
Recycling, recovery and reprocessing of waste materials for use in new products. The basic phases in recycling are the collection of waste materials, their processing or manufacture into new products, and the purchase of those products, which may then themselves be recycled. Typical materials that are recycled include iron and steel scrap, aluminum cans, glass bottles, paper, wood, and plastics.
Session 9 : Wind Energy
Wind is brought about by the lopsided warming of the environment by the sun, varieties in the world's surface, and pivot of the earth. Mountains, waterways, and vegetation all impact wind stream designs , Wind turbines convert the vitality in wind to power by turning propeller-like sharp edges around a rotor. The rotor turns the drive shaft, which turns an electric generator. Three key variables influence the measure of vitality a turbine can outfit from the breeze: wind speed, air thickness, and cleared zone.
Session 10 : Nuclear fission emission
Unlike fossil fuel-fired power plants, nuclear reactors do not produce air pollution or carbon dioxide while operating. However, the processes for mining and refining uranium ore and making reactor fuel all require large amounts of energy. Nuclear power plants also have large amounts of metal and concrete, which require large amounts of energy to manufacture. If fossil fuels are used for mining and refining uranium ore, or if fossil fuels are used when constructing the nuclear power plant, then the emissions from burning those fuels could be associated with the electricity that nuclear power plants generate.
Session 11 : Waste to Energy
Squander to-vitality (WtE) is the way toward creating vitality as power or potentially heat from the essential treatment of waste, or the handling of waste into a fuel source. WtE is a type of vitality recuperation. Most WtE forms create power and additionally heat legitimately through burning, or produce a flammable fuel item, for example, methane, methanol, ethanol or manufactured energizes. The term WtE is usually utilized in explicit reference to cremation which consumes totally combusted waste at ultra-high temperatures taking into consideration vitality recuperation. Present day burning offices use contamination control hardware to forestall the arrival of discharges into nature. Right now cremation is the main WtE innovation that is financially practical and operationally attainable at business scale.
Session 12 : Bio-remediation
Bioremediation is also a waste management technique that involves the use of organisms to induce eliminate or neutralize pollutants from a contaminated site. Technologies are going to be sometimes classified as in situ or ex situ. in situ bioremediation also involves treating the contaminated material at the location, whereas ex situ involves the removal of the contaminated material to be treated elsewhere. Bioremediation would possibly occur on its own (natural attenuation or intrinsic bioremediation) or may exclusively effectively occur through the addition of fertilizers, oxygen, etc., that facilitate encourage the growth of the pollution-eating microbes at intervals the medium.
Among the top three nations, China is the undisputed renewable growth leader, accounting for over 40% of the total global clean energy mix by 2022. This is due to meeting various capacity targets and addressing concerns about the country’s air pollution.
In recent months, for example, China has deployed a number of novel technologies designed to clean the air, including a 100-metre-tall smog-sucking tower in the city of Xian.
China has also already surpassed its 2020 solar panel target, and the IEA says it expects the country to exceed its wind target in 2019. China is also the global market leader in hydropower, bioenergy for electricity and heat, and electric vehicles.
India overtakes the European Union
In India, meanwhile, renewable capacity is expected to more than double by 2022. Solar and wind represent 90% of India’s capacity growth, which is the result of auctions for contracts to develop power-generation capacity that have yielded some of the world’s lowest prices for both technologies, the report says.
It adds that India has also improved grid integration and addressed the financial issues of its utilities. Because of these factors, India’s growth between now and 2022 is, for the first time, expected to be higher than in the European Union (EU).
Incidentally, renewables growth across the EU is 40% lower than between 2011 and 2016, with the market hampered by weaker electricity demand, overcapacity, and a lack of clarity on the capacity volumes that will be auctioned. What’s more, policy uncertainty within the bloc beyond 2020 remains high. Energy Directive covering the post-2020 period is adopted, it would address this challenge by requiring a three-year period for policies to support renewable energy, thereby improving the market’s predicton.
United states of America:-
Perhaps surprisingly, the United States is the second-largest growth market for renewables. Despite President Donald Trump’s decision to pull out of the Paris Agreement, renewable projects in the US are expected to benefit from multi-year federal tax incentives and state-level policies for distributed solar panels in the coming years.
Climate change may still be a matter of debate for some politicians, but investors are increasingly decisive. Money is gushing into any kind of asset labeled green or sustainable. The frenzy now has investors and firms alike grappling with what counts as “green finance”—and with funds that are no longer seen as green enough.
At least $30.7 trillion of funds is held in sustainable or green investments, up 34% from 2016, according to a report by the Global Sustainable Investment Alliance, a group of organizations tracking those moves in five regions from the U.S. to Australia. Overall, these money flows account for one-third of the tracked assets under management, and in some places have reached more than half.
Economy and Business:
At this point, you've positively known about "practicing environmental awareness." Well, efficient power vitality is economical vitality. Otherwise called clean vitality or sustainable power source, environmentally friendly power vitality alludes to power or fuel that is gotten from inexhaustible sources like the sun, wind, water, geothermal vitality and biomass. Efficient power vitality, in contrast to non-renewable energy sources, doesn't harm the earth to catch it or use it.
Meetings International is announcing Young Scientist Awards through 16th International Conference on Green Energy & Sustainability (Green Energy 2020) which is scheduled at Hong Kong, China during July 20-21, 2020. This Green Energy conference focuses on “New Frontiers of Green Energy”.
Green Energy 2020 and upcoming conferences will recognise participants who have significantly added value to the scientific community of environmental science and provide them outstanding Young Scientist Awards. The Young Scientist Award will provide a strong professional development opportunity for young researches by meeting experts to exchange and share their experiences at our international conferences.
Green Energy 2020 focuses mainly on Renewable Energy, Green Energy and Economy, Hybrid Renewable Energy Approaches, Biofuels and Bioenergy, Solar, Wind and Marine Energy. Green Energy conference operating committee is providing a platform for all the budding young researchers, young investigators, post-graduate/Master students, PhD. students and trainees to showcase their research and innovation.
Young Scientists, faculty members, post-doctoral fellows, PhD scholars and bright Final Year MSc and M.Phil. candidates. Persons from Scientific Industry can also participate.
Benefits: The Young Scientist Feature is a platform to promote young researchers in their respective area by giving them a chance to present their achievements and future perspectives.
- Acknowledgement as YRF Awardee
- Promotion on the conference website, Young Researcher Awards and certificates
- Link on the conference website
- Recognition on Meetings Int. Award Page
- Chances to coordinate with partners around the world
- Research work can be published in the relevant journal without any publication fee
- All presented abstracts will automatically be considered for the Award.
- All the presentation will be evaluated in the conference venue
- All the awards will be selected by the judges of the award category
- The winners of the Young Scientist Award will receive award certificate.
- The awards will be assessed as far as plan and format, intelligence, argumentation and approach, familiarity with past work, engaging quality, message and primary concerns, parity of content visuals, and by and large impression.
- All submissions must be in English.
- The topic must fit into scientific sessions of the conference
- Each individual participant is allowed to submit maximum 2 papers
- Abstract must be submitted online as per the given abstract template
- Abstracts must be written in Times New Roman and font size will be 12
- Abstract must contain title, name, affiliation, country, speakers biography, recent photograph, image and reference
Conditions of Acceptance:
To receive the award, the awardee must submit the presentation for which the award is given, for publication at the website, along with author permission. Failure to submit the PPT, and permission within the designated timeframe will result in forfeiture of award.
Official announcement of the recipients will occur after the completion of Green Energy Conference.