Our planet, society, and the governments of the most advanced countries require companies to comply with regulations regarding ecological and industrial sustainability. Today, it is very important to stay in line with all the updates in this area to ensure not only the future of one’s own company but also that of society as a whole and the generations to come.
But how can we guarantee a sustainable future when it comes to energy and renewable sources?
With multi-kinetic flywheel batteries, we take a step further towards a sustainable future.
Here are some considerations on how to make the most of this technology to ensure energy sustainability:
Storage of Renewable Energy
Multi-kinetic flywheel batteries can store energy generated from renewable sources, such as solar and wind power, helping to offset fluctuations in energy production. This means that energy generated during peak periods can be stored and used when production is lower or in the absence of sunlight or wind. This increases the reliability and stability of energy systems based on renewable sources.
Load Peak Management
Multi-kinetic flywheel batteries can be used to manage energy load peaks. During periods of high energy demand, such as during peak hours, the batteries can provide immediate energy, reducing the need to rely on conventional energy sources or expand generation capacity.
Grid Stabilization
Multi-kinetic flywheel batteries can provide grid stabilization services, such as frequency regulation and reactive power compensation. This helps maintain the balance between electricity supply and demand on the grid, improving the quality of the energy provided to end users.
Reduction of carbon emissions
By using multi-kinetic flywheel batteries in combination with renewable energy sources, dependence on fossil fuels can be reduced and greenhouse gas emissions can be lowered. Flywheel batteries help shift energy consumption to periods when renewable sources are abundantly available, thus reducing the need to rely on traditional fossil fuel-based power plants.
By using multi-kinetic flywheel batteries, a decisive choice is made for an ecological future with minimal environmental impact, as no rare or toxic/chemical materials are used in the production of the batteries. Consequently, there is no need to develop strategies for recycling depleted batteries.
Moreover, Malex Europe believes it is extremely important to continue investing in the research and development of more efficient, safe, and cost-effective flywheel batteries. This has been possible so far through collaboration with several companies and organizations in the sector, as well as partner universities who believe in the project alongside us:
Collaboration for mechanical parts production, assembly, and testing:Cams Srl, Tecnomeccanica Sud, Intec
Collaboration for design, simulation, and energy storage control:University of Genoa, University of L’Aquila, PST Design Studio, Spin magnetic Applications
We are currently preparing for the product launch, scheduled for 2024. Additionally, we are working on perfecting and improving the product’s performance, developing more advanced and efficient versions for specific fields, using the latest technological raw materials that meet the current and future industry requirements.
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