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Written by: ofurpaur

Category: Announcements

Published: 01 December 2021

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Dear readers, dear Friends,

The 15^th issue of our Online Magazine is now out!

We are happy to announce that with this November issue we are closing another year together and, a lot of novelties are coming, not forgetting the new entries!

But with this message we want to spread our initiative foreseen for next week, our Annual Seminar, the Regional Funds Week: It is an experiment of merging our two Funds, comprehending our Fund for Regional Cooperation “brother”. As you will have the chance to see, the Projects have put together their efforts, not only to present the results achieved, but also to start thinking about possible ways to cooperate. We will send you further details soon since we want you all to participate!

But right after that, we, together with our Projects, will start thinking about future activities and initiatives, starting from the 2022 European Year of Youth. As you know, we are always searching for good external collaboration, and we believe this could be a great opportunity, related to the main target group of our Fund.

Linked to that, please go and see our November’s theme: “Unemployed young disabled persons and unemployed young women”.

We always try to present creative issues, but his is a reach one. And, as said…,
stay tuned for next details about our Regional Funds Week!

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Written by: ofurpaur

Category: Announcements

Published: 26 November 2021

Hits: 1373

Dear colleagues,

The Roscongress Foundation, the Center for Comprehensive European and International Studies of the National Research University Higher School of Economics and the Analytical Center for the Government of the Russian Federation would like to invite you to participate in the online conference “Russian-Finnish Cooperation in the Field of Sustainable Development in the Arctic Region” that is planned to be held on 29 November 2021. The event will start at 15:00 GMT+3 (Moscow time) and will be broadcasted on the site of the Programme of the Russian Chairmanship in the Arctic Council 2021–2023.

The conference is scheduled to be an opening event of the ThinkArctic Project – a series of ten conferences on bilateral Russian cooperation with Arctic and Non-arctic states in the area of sustainable development, organized by the Roscongress Foundation, the Center for Comprehensive European and International Studies, and the Analytical Center for the Government of the Russian Federation. ThinkArctic Project will be conducted within the Programme of the Russian Chairmanship in the Arctic Council 2021–2023.

The Roscongress Foundation is a socially oriented non-financial development institution and a major organizer of international conventions; exhibitions; and business, public, sporting, and cultural events. The Center for Comprehensive European and International Studies is a leading academic center in international relations. One of the major research topics of the Center is the cooperation in the Arctic region with a special focus on sustainable development, security and climate change. The Analytical Center for the Government of the Russian Federation is a nonprofit institution providing information and analytical support for the Russian Government and performing related research.

The Conference aims to bring together experts, representatives of the public authorities, and the business community from both countries. The event will focus on the current state and perspectives of the Russian-Finnish cooperation in the Arctic in the field of the UN Sustainable Development Goals in the light of Russian chairmanship in the Arctic Council during 2021–2023. The results of the Conference will further become a part of an analytical report on international cooperation in the field of sustainable development between Russia and Arctic and Non-arctic States. The results of the project will be presented at the high-level panels at the International Arctic Forum in April of 2022 and 2023.

We are looking forward to your participation in the event. During the conference there will be a live chat for questions and comments, concerning perspectives of the Russian-Finnish cooperation in the Arctic. If you have any questions, we would be glad to provide you with further information. Project coordinators: Ilya Stepanov, HSE University (This email address is being protected from spambots. You need JavaScript enabled to view it.) and Dmitrii Vodopianov, the Roscongress Foundation (This email address is being protected from spambots. You need JavaScript enabled to view it.).

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Written by: ofurpaur

Category: Announcements

Published: 23 November 2021

Hits: 1708

Energy storage technologies are undergoing a challenging transformation, vital in an emerging climate that increasingly necessitates renewable energies and recyclable hardware. Energy storage sectors such as Li-ion batteries are forecast to experience rapid growth, while supply chain restraints mean new alternative energy storage technologies are under development, creating fresh opportunities. Covering a wide portfolio of energy storage technologies, their history, and their outlook for the future, IDTechEx looks at how the energy storage sector has fared over the past year, and where it is headed for the next.

Li-ion and material demand

Demand for Li-ion batteries is forecast to undergo rapid growth over the next 10 years, driven primarily by the electrification of transport. This will involve growth in demand for battery-electric cars, but also for a wide spectrum of vehicle types and segments, and it is these non-car segments that many pack manufacturers will be targeting. IDTechEx’s report “Lithium-ion Batteries for Electric Vehicles 2021-2031” covers the trends in battery technology for EVs and studies the pack manufacturers targeting buses, commercial vehicles, and many other non-car segments. However, while Li-ion will continue to remain the dominant technology in electric vehicles, the fears of potential bottlenecks to the supply of certain critical materials, such as lithium, nickel, or graphite, may ultimately limit the rate of EV uptake. IDTechEx’s report “Materials for Electric Vehicle Battery Cells and Packs 2021-2031” forecasts the growth in demand for Li-ion battery materials included in the cell and pack, while IDTechEx also covers the wider Li-ion market, including detailed analysis of the technology and players. Beyond the problems that may be caused by the rapid growth in material demand, concerns also exist over the environmental impact and sustainability of Li-ion production.

Li-ion recycling

Recycling offers a partial solution to both the sustainability and supply chain issues faced by the Li-ion industry by providing a degree of circularity - materials from waste and end-of-life batteries can be extracted and refined to be re-used in cell and battery manufacturing. This can have several beneficial impacts. It can diversify material supplies, helping to reduce reliance on any single country or region. Environmentally, Li-ion recycling, especially via hydrometallurgical or direct recycling routes, is expected to reduce the total energy requirements of producing a cell, compared to using virgin materials. Other emissions, including SOx, NOx, and particulates, in addition to CO2, are also expected to be lower by using recycled material over primary extraction. Local recycling and refining capabilities, as are beginning to be built up in Europe and the US, can also reduce the distance traveled by materials further reducing the emissions profile of Li-ion batteries. However, even if enough recycling capacity was built up to deal with the entire volume of waste Li-ion batteries by 2030, recycled material could only contribute a fraction of the material demand.

To help alleviate possible supply chain constraints, a number of alternative battery and energy storage technologies are under development that may be able to replace Li-ion batteries in applications where energy density is not such a critical parameter. The applications for these technologies could include small, city-dwelling electric cars, e-buses, hybrid electric vehicles, fuel-cell trucks, or autonomous guided vehicles, all of which are covered by IDTechEx’s portfolio of EV research. But the array of energy storage technologies available and underdevelopment is most obvious in the stationary energy storage sector. This is true because energy density becomes a less critical factor in stationary energy storage, allowing a range of technologies to be utilized.

To find out more on the stationary storage markets and electric vehicle markets, please see the reports “Batteries for Stationary Energy Storage 2021-2031” and “Electric Vehicles: Land, Sea and Air 2021-2041”. More detailed analysis of individual EV segments can be found in specific reports on electric buses, cars, 2-wheelers, commercial vehicles, and boats, amongst others.  

Solid-State Batteries

With Solid Power and QuantumScape going public, solid-state batteries are attracting tremendous attention, especially for electric vehicle applications. Electric vehicles are the major motivation for the development of solid-state batteries, and many automotive OEMs have announcements for the year ahead. There have been improvements in every section of solid-state battery technology: polymer, oxide, and sulfide. Of these improvements, a notable one is that a lithium metal anode is essential to get higher energy density, upping the performance of solid-state batteries to make them more competitive. Moving from material/cell development to pilot and mass production is also an important trend. It is quite common to find solid-state battery players partner with automotive OEMs for further development. Details on technologies, players, and markets can be found from solid-state and polymer batteries research.

Thin, Flexible and Printed Batteries

Thin, flexible and printed batteries have been talked about for a while, with many of them having found niche applications. Lots of the batteries have mature technology, but finding proper applications with large demand is the key to growing this technology. There are quite a lot of companies in the market working in this area, meaning competition is growing all the time. The company which identifies the most relevant applications – those which require the special features of thin flexible and printed batteries – will be the one to succeed and corner this market. For more details please refer to IDTechEx’s Thin-film, flexible and printed batteries report.

Na-ion

Na-ion has seen renewed interest after CATL’s announcement of their development of Na-ion. Similar in many ways to Li-ion batteries, Na-ion batteries utilize Na as the working element instead of Li, as the name would suggest. Na-ion batteries are generally characterized by having slightly higher powers and cycle lives than NMC and LFP Li-ion cells, but with slightly lower gravimetric energy densities. While Na-ion will of course reduce reliance on lithium, their cathodes can still make use of cobalt and nickel, and so whether they can be utilized to reduce reliance on these materials depends entirely on the specific cathode chemistries that will be used.

For greater insight into the technological capabilities of different battery forms, please see Advanced Li-ion batteries.

Redox flow batteries

Redox flow batteries differ from intercalation batteries such as Li-ion and Na-ion, by storing energy in the electrolyte, separate to the electrochemical cell, thus allowing the de-coupling of energy power. This key aspect makes RFBs well suited to stationary storage applications, especially long-duration applications. Vanadium is by far the most widely deployed chemistry, with 15-20 companies commercializing vanadium systems. However, the high cost of vanadium leads to high capital costs that may be prohibitive to widespread use, though schemes such as electrolyte leasing are being explored to try and reduce the initial capital expenditure. Nevertheless, the high cost of vanadium has led to the development of alternative RFB chemistries that utilize low-cost active materials, such as the all-iron-based chemistry being developed by ESS Inc or even flow batteries that can utilize low-cost, widely available organic compounds as the electrolyte active material.

Alternatives and hydrogen

Non-electrochemical technologies such as gravitational storage or cryogenic air storage are also being explored, but they are at an early stage of development and may not be suitable for economic storage over longer timeframes. Balancing of supply and demand for grids utilizing high percentages of variable renewables will require a combination of energy storage, overcapacity, interconnection, and other solutions such as vehicle-to-grid capability and demand-side response. Indeed, a variety of non-electrochemical storage technologies, from supercapacitors to compressed air energy storage are being explored for stationary applications.

Green hydrogen is also discussed as a potential solution for long-duration energy storage and continues to receive government support. Electrolyzers, whether PEM, alkaline or solid-oxide type, can be used to produce hydrogen from water to be stored for use at a later time. Whether long-term storage of hydrogen will become feasible remains to be seen. Storage in gas cylinders may be too costly, while underground storage in aquifers or salt caverns for example has geographic constraints and remains relatively untested. An alternative H2 storage method being explored consists of injecting H2 into existing natural gas pipelines where there is an inherent energy storage capacity, though there will be limits to the amount of hydrogen that can enter current gas networks. Beyond this, electrolytic hydrogen will be necessary to green various industries such as ammonia, steel, or chemicals production. The use of hydrogen for energy consumption, where there are alternative solutions, may not be the optimal choice. Instead, it is demand from industrial sectors which IDTechEx expect to drive demand for electrolyzers and green hydrogen.

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Written by: ofurpaur

Category: Announcements

Published: 22 November 2021

Hits: 1469

CliC has just released a newsletter volume 36 and it is available for online viewing.

Highlights:

• CliC Strategic Plan 2022-2031
• CliC Annual Report 2020
• Open call for 2021 CliC Fellowships and Grants
• CliC contribution to COP26