- “energy Storage Breakthroughs: Paving The Way For Reliable Gas And Electricity Supply”
- Green Battery Architecture Is Accelerating Energy Storage Solutions
- So, What Exactly Is Long Duration Energy Storage?
“energy Storage Breakthroughs: Paving The Way For Reliable Gas And Electricity Supply” – The European Energy Storage Association (EASE) is proud to announce its seventh annual Student Award, which recognizes outstanding student research in the field of energy storage.
On April 13, 2022, Breakthrough Energy, the European Energy Storage Association – EASE, SolarPower Europe and WindEurope signed an open letter calling on the European Commission to recognize the key role of energy storage for the security of energy supply in Europe.
“energy Storage Breakthroughs: Paving The Way For Reliable Gas And Electricity Supply”
The four organizations welcome the fact that the REPowerEU plan presented in March rightly identifies renewable energy sources, especially wind and solar, as key technologies to reduce Europe’s dependence on Russian oil, gas and coal.
Green Battery Architecture Is Accelerating Energy Storage Solutions
However, even if the renewable energy industry is prepared to support the EU’s ambitions without rapidly scaling up market-ready energy storage technologies, the EU will not be able to achieve a zero energy system, risking further exposure to volatile fossil fuel energy markets.
The EU urgently needs a massive and rapid deployment of energy storage solutions. Some of the solutions we currently have to offset renewable energy production – mostly disposable fossil fuel generation, such as gas-fired power plants – run counter to Europe’s ambitions for climate, energy independence and security of supply.
Energy storage must become a political priority alongside renewables in the short term, and the European Commission may take three actions in its REPowerEU Action Plan in May:
With the US and China strongly supporting the uptake of energy storage, the EU risks being late for the next technological trend. Europe has invested heavily in research and development, especially in long-term energy storage. Now we need to reap the benefits of these efforts by implementing storage technologies on a large scale
So, What Exactly Is Long Duration Energy Storage?
We need to replace the gas turbines that provide flexibility. And not in years: now. Europe has the technology, the industry is willing, but we need a clear political commitment. The EU must not be dependent on gas imports
Storage will play a key role in meeting the flexibility needs of a decarbonised and decentralized European energy system.”
“In order to meet the EU’s ambition to become independent of Russian fossil fuel imports, the development of energy storage needs to be accelerated. In particular, we ask the European Commission to exploit the flexibility potential of solar energy and energy storage solutions that are already cost-competitive if supported by the right policy framework
Europe wants more wind energy as soon as possible to reduce fossil fuel imports. Well, Europe can count on us. REPowerEU’s May 18 plan must now also recognize the key role of storage in providing clean, domestic and affordable energy for all Europeans
Battery Breakthrough Achieves Energy Density Necessary For Electric Planes
In November 2022, EASE, together with Breakthrough Energy, SolarPower Europe and WindEurope, launched a campaign highlighting the importance of energy storage for Europe in achieving energy security. Find out more here!
Policy documents – Responses to the public consultation Call for opinions on the EU’s 2040 climate target
EASE has prepared a response to the European Commission’s public consultation on the EU’s 2040 climate targets, which aims to collect views on the EU’s interim climate targets for 2040 by 24 June 2023. The call for input will form the basis of a detailed impact assessment in in the light of the preparation of the draft law.
EASE prepared a position paper on the Energy Market Design Revision proposal, providing a key EASE position on how to improve the proposal and make non-fossil flexibility a central element of a new decarbonised energy system. On March 14, 2023, the European Commission presented a proposal to reform the structure of the electricity market, which may significantly affect the energy storage sector.
Powering The Future: How Renewable Energy Is Revolutionising The Mobile Sector
EASE and LCP-Delta are pleased to announce the publication of the seventh edition of the European Market Monitor on Energy Storage (EMMES). Market Monitor is based on the largest database of European energy storage projects. The database of over 2,600 projects includes details on current installations by customer segments (residential, C&I and front-of-meter) in 24 European countries, future projects and projections until 2030.
EASE has published its 2022 activity report. In 2022, ensuring energy security has become an urgent priority, underlined by geopolitical instability and the accelerating pace of the climate crisis. At EASE, we continued to push the deployment of energy storage, which is key to ensuring independent access to energy while paving the way for a carbon neutral economy. Open Access Policy Institutional Open Access Program Special Editions Guidelines Editorial Process Research and Publication Ethics Article Processing Fees Awards References
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Advancements In Solid State Battery Technology: A Timeline Of Progress
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Enas Taha Sayed Enas Taha Sayed Scilit Preprints.org Google Scholar 1, Abdul Ghani Olabi Abdul Ghani Olabi Scilit Preprints.org Google Scholar 2, 3, * , Abdul Hai Alami Abdul Hai Alami Scilit Preprints.org Google Scholar 2, * , Ali Radwan Ali Radwan Scilit Preprints.org Google Scholar 2, 4, Ayman Mdallal Ayman Mdallal Scilit Preprints.org Google Scholar 2, Ahmed Rezk Ahmed Rezk Scilit Preprints.org Google Scholar 5 and Mohammad Ali Abdelkareem Mohammad Ali Abdelkareem Scilit Preprints.org Google Scholar 1, 2, *
Research Center for Sustainable Energy and Power Systems, RISE, University of Sharjah, Sharjah P.O. Box 27272, United Arab Emirates
Solid State Batteries: A Major Breakthrough In Battery Technology
Mechanical Engineering and Design, School of Engineering and Applied Sciences, Aston University, Aston Triangle, Birmingham B4 7ET, UK
Energy and Bio-Based Products Research Institute (EBRI), College of Engineering and Physical Sciences, Aston University, Birmingham B4 7ET, UK
Received: Dec 8, 2022 / Revised: Jan 14, 2023 / Accepted: Jan 25, 2023 / Published: Feb 1, 2023
(This article belongs to the special issue of The Prospects for Renewable Energy Storage: Technology, Process, and New Materials)
Used Ev Batteries Are Storing Solar Power At Grid…
The use of fossil fuels has contributed to climate change and global warming, leading to a growing demand for renewable and environmentally friendly alternatives. It is assumed that renewable energy sources are an ideal option to replace fossil fuels in the near future. Significant progress has been made in the production of renewable energy sources at an acceptable cost on a commercial scale, such as solar, wind and biomass. We owe this success to technological progress, which enables effective use of renewable energy sources at lower prices. More work is needed to maximize the efficiency of renewable energy sources, with an emphasis on their availability, where the storage function is considered crucial. In addition, hybrid renewable energy systems with good energy management are needed to balance the production/consumption/storage of different renewable energy sources. This work covers the progress made on major commercial-scale renewable energy sources, including solar, wind, biomass and hybrid renewables. In addition, energy management between different renewable energy sources and storage systems is discussed. Finally, this paper discusses recent advances in green hydrogen production and fuel cells that could pave the way for the commercial use of renewable energy in a wide range of applications.
Large-scale renewable energies; solar energy; Wind energy; biomass energy; hybrid renewable energy; energy management; green hydrogen; energy storage systems; fuel cells
Demographic expansion and technological progress have led to an exponential increase in the consumption of fossil fuels, which are limited in resources and have significant environmental consequences, reflected in global warming and climate change [1, 2, 3]. That is why scientists around the world are looking for different methods to reduce or eliminate the use of fossil fuels. The consumption of fossil fuels, and thus its contribution to climate change, can be effectively reduced by implementing three separate strategies: (a) increasing the efficiency of conventional energy conversion devices/systems by recovering waste heat [4, 5, 6]; (b) development of efficient and environmentally friendly energy conversion devices, such as fuel cells [7, 8, 9]; and finally (c) a shift towards renewable energy that comes from nature and has minimal negative impact on the environment [10, 11, 12]. Overall, the use of renewable energy is the most attractive method as it can significantly reduce consumption or even eliminate dependence on fossil fuels. The last decade has seen a rapid increase in the production and use of renewable energy. Some of them are applicable to megascale energy generation, such as