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About Us

Date

October 26-27, 2021 at 10:00 AM MET 
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Location

Berlin, Germany

All global emirates in the energy department are invited to share their study at this unique science program, which will be held in Berlin on October 26-27, 2021, and will be focused on the theme "Study at the Interface of Energy and Sustainability". Renewable Energies, Green Energy, and the Economy, Biofuels, Bioenergy, and Sustainable Nuclear Energy, Solar, Wind, and Marine Energy, Hydro Power Generation and Geothermal Energy, Waste to Energy, and Smart Grid Systems, Fossil and Radioactive Fuels, Petroleum Engineering and Natural Gas Recovery, Energy Storage, Generation, and Transmission are among the topics covered in Energy 2021.
Berlin has a diverse range of tourist attractions, ranging from ancient to modern times, that can provide participants with a memorable experience. The many cultural festivals held here attract visitors from all over the world.

The amount of resources we consume has far-reaching effects. The ability to harness resources, especially in the form of fossil fuels like oil, coal, and natural gas, is essential to modern civilization's progress. The stock of fossil fuels is finite. Our energy needs would not be fulfilled if we run out of fossil fuels without a backup plan. The use of fossil fuels is therefore unsustainable for our environment. Fossil fuel usage is therefore unsustainable in terms of our wellbeing and the environment's safety. For example, particulate matter and mercury pollution from coal-fired power plants cause respiratory disease and premature death, particularly in vulnerable communities such as children and the elderly.

Sustainable Energy
Just 10% of the world's energy needs are met by sustainable energy, which is derived from renewable resources such as the solar, wind, water, and crops. The fact that usable yet unharnessed sun and wind resources generate 50 times more energy than the planet uses in a year is fascinating. But, with so much energy available, why is it so difficult to switch to more renewable energy sources? Renewable energy technologies are currently not optimally developed or commercially profitable, in part due to a lack of financial capital dedicated to their production. However, all of the inventions that humans use today (including automobiles, telephones, and electricity!) were once deemed insufficiently stable or lucrative for the consumer market. Continuing investments, on the other hand, provided researchers with the tools and opportunities they needed to further expand these innovations and improve their efficiency and functionality.

Solar Energy
Solar energy holds the secret to a sustainable energy future. Every day, the sun produces much more energy than we need to fuel the entire planet.  Since it comes from the Sun, it is both inexhaustible and sustainable. Since the sun does not release greenhouse gases during electricity production, it is the cleanest and most promising option for preventing environmental degradation. Solar energy does not release any harmful or polluting chemicals into the atmosphere.

Wind Energy
Wind energy has many benefits, which is why it is one of the world's fastest-growing energy sources. The word "eolic energy" comes from the name of the Greek mythological figure Aeolus, who is known as the "Keeper of the Winds." The people of Holland want more wind turbines! According to surveys, almost 78% of the Dutch population supports wind turbines. The power of wind turbines has grown over time. Onshore turbine capacities of around 2 MW and offshore turbine capacities of 3–5 MW are available in today's latest wind power projects.

Tidal Energy
The moon is a trustworthy counterparty, and tidal power generation is very predictable and unobtrusive. Wind and solar energy are less predictable than tides. Tidal turbines spin at such a sluggish speed that they pose no hazard to aquatic animals when in use. The turbines are smart enough to turn on each tide to face the oncoming water flow and to spin their blades to avoid generating power if the water speed reaches reasonable operating limits. The ocean is a massive power supply that is currently largely untapped. That will soon improve.

Bioenergy
All of the organic chemicals currently obtained from petroleum, as well as many other bio-products that cannot be effectively extracted from petroleum, can be processed from bioenergy crops into commercially feasible, carbon-neutral specialty biofuels. Agricultural residues such as sugarcane bagasse and corn cobs, wood chips and pellets from thinning and wood industry residues, and even dried animal dung all fall under biomass. They all contain accumulated energy extracted naturally from the sun as organic material.

Energy Security
National security and the supply of natural resources for energy use are linked by energy security. The availability of low-cost electricity has been critical to the functioning of developed economies. However, significant vulnerabilities have arisen as a result of the unequal distribution of energy resources among countries.

Hydropower
Potential energy from large heads of water stored in dams, kinetic energy from current flow in rivers and tidal barrages, and kinetic energy from the action of waves on comparatively stagnant water masses are all examples of hydro energy. Hydroelectric power generation is by far the most effective way to generate massive amounts of electricity.

Water Technologies
Water from the Water Technology industry is of the highest standard. As a result, the burden on the living atmosphere is kept to a minimum. It primarily provides opportunities for local and decentralised water management solutions, as well as technology for the use and reuse of freshwater.

Geothermal
The heat that comes from the Earth is known as geothermal energy. Geothermal fields emit about a sixth of the carbon dioxide emitted by a relatively clean natural-gas-fueled power plant. Binary plants produce almost no emissions. Geothermal energy, unlike solar and wind energy, is always available, 365 days a year.

Fuel Cells
Fuel cells have greater efficiencies than combustion engines, and can transform the chemical energy in the fuel to electrical energy at up to 60% efficiency. Fuel cells emit less pollutants than internal combustion engines. The fuel-cell powertrain is fully climate-neutral because it is powered by renewable energy.

From 2018 to 2025, the global clean energy industry is forecast to grow at a CAGR of 6.1 percent, from $928.0 billion in 2017 to $1,512.3 billion in 2025. Renewable energy systems harness energy from a variety of natural sources, such as the sun, oceans, wind, and other natural phenomena, into useful forms, such as electricity. Energy 2021 aims to bring together leaders in sustainable and non-renewable energy, policymakers, economists, academics, and students to address the current state of energy research and production. Hydro and sea influence, wind vitality, sun driven vitality, bioenergy, and geothermal vitality are all part of today's sector. It is divided into private, corporate, mechanical, and other end clients.
It focuses discussions on the economics of renewable and non-renewable energy, smart grid systems, advanced energy storage materials, nuclear energy, and hybrid renewable energy approaches, among other topics, in order to arrive at potential options for improved sustainability in this field in the near future.

Major Energy Associations around the Globe:

  1. The American Wind Energy Association (AWEA), USA
  2. The Wind Energy Foundation, USA
  3. Women of Wind Energy, USA
  4. The Solar Energy Industries Association, USA
  5. The Solar Foundation, USA
  6. American Council on Renewable Energy
  7. American Solar Energy Society
  8. Danish Organization for Renewable Energy
  9. European Renewable Energy Council
  10. Green Power Forum

Asia Pacific:

  1. National Botanical Research Institute, India
  2. Bond University, Australia
  3. Australian National University, Australia
  4. Curtin University, Australia
  5. Murdoch University, Dubai
  6. Anand agricultural university, India
  7. University of the Sunshine Coast, Queensland, Australia
  8. Zhejiang University of Science and Technology, China
  9. Central Salt & Marine Chemicals Research Institute, India
  10. Cochin University of Science and Technology, India
  11. Fisheries College and Research Institute, India

America:

  1. University of California,  ‎Oakland, California, USA
  2. University of Tennessee, USA
  3. Saint Francis University, USA
  4. Northeastern university,  USA
  5. Foothill College, USA
  6. University of North Carolina, USA
  7. North Dakota State University, USA
  8. Michigan State University, USA
  9. Stanford University, USA
  10. Northwest Missouri State University, USA

Middle East:

  1. Sharjah Surgical Institute, UAE
  2. European University College, Dubai, UAE
  3. Murdoch University Dubai, UAE
  4. University of Sharjah, Dubai, UAE
  5. Masdar Institute of Science and Technology, UAE
  6. College of Health Sciences, UAE
  7. RAK Medical & Health Sciences University, UAE
  8. University of Sharjah, UAE

Europe:

  1. Durham University, UK
  2. Edinburgh Napier University, Scotland
  3. University of Dundee, Scotland
  4. University of Leon, Spain
  5. KU Leuven, Belgium
  6. Vrije Universiteit Brussel, Belgium
  7. ITMO University Saint Petersburg, Russia
  8. University of Pavia, Italy
  9. hhttps://www.meetingsint.com/conferences/renewable-energy
  10. Stockholm University, Sweden
  11. University of Groningen, Netherlands
  12. University of Debrecen, Hungary
  13. Skolkovo Institute of Science and Technology, Russia

Fund Allotment:
The share of renewable energy (RE) related capacity in total installed power generation capacity increased to 21.8 percent as of March 31, 2019, from 12.9 percent as of March 31, 2014. This is due to central government policy support as well as better cost competitiveness. Similarly, at the national level, the share of RE-based generation in the overall generation mix increased to 9.2 percent in FY2019 from 5.6 percent in FY2015. With installed capacity of 77.6 GW as of March 31, 2019, incremental capacity of 97.4 GW is required to reach the government's RE capacity goal of 175 GW by FY2022, implying a Rs 5 trillion expenditure. In this sense, the government should increase financing for the clean energy industry in order to promote the construction of renewable energy parks and the expansion of inter-state transmission infrastructures.

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