MADE4WINDPROJECT

Stop imagining a future that is already reality. Thanks to our advanced testing and validation framework led by SINTEF, this future is within reach. Here’s how we’re achieving this transformation: Robust Validation: We’re rigorously testing blades, drivetrains, and floating structures under real-world conditions to ensure they are durable, require less maintenance, and have fewer failures.? Optimized Efficiency: By ensuring high operational availability offshore and reducing the Levelized Cost of Energy (LCoE), we’re making wind energy more cost-effective and efficient.? Accurate Simulations: Our advanced lab tests validate numerical models, enhancing the precision of simulations and reducing over-engineering, leading to more reliable components. ? The result? A significant leap towards wind turbines that are not only more reliable but also more economical. Curious about how these advancements could impact the future of wind energy? Stay in the loop by subscribing to our newsletter for the latest updates and insights https://lnkd.in/dQNqf38h Balram Panjwani Laura Sada Heiko Keller Marit Eggen Keld Lauridsen Simon Mosbjerg Jensen FRANCISCO JOSé POLO SáNCHEZ S?ren Randrup Daugaard Henrichsen Brian Lau Verndal Bak Ane Kold di Gennaro Nina Dahl Esben Lindgaard Norges teknisk-naturvitenskapelige universitet (NTNU) Fibertex Nonwovens A/S ifeu - Institut für Energie- und Umweltforschung Heidelberg gGmbH Zabala Innovation Spain Zabala Innovation Europe Igor Idareta

At Made4Wind, we are committed to the future of offshore wind energy and the circular economy. With over 1,800 wind turbines reaching the end of their lifecycle in the coming years, it’s crucial that we focus our efforts on durable and recyclable designs that minimize waste and optimize the use of critical materials. ?? Our project is dedicated to sustainable solutions that not only extend the lifespan of turbines but also drive a clean and environmentally friendly energy transition. #CircularEconomy #OffshoreEnergy #SustainableInnovation #Made4Wind #EnergyTransition Balram Panjwani Laura Sada Heiko Keller Marit Eggen Keld Lauridsen Simon Mosbjerg Jensen FRANCISCO JOSé POLO SáNCHEZ S?ren Randrup Daugaard Henrichsen Brian Lau Verndal Bak Nina Dahl Esben Lindgaard Norwegian University of Science and Technology (NTNU) Fibertex Nonwovens A/S ifeu - Institut für Energie- und Umweltforschung Heidelberg gGmbH Zabala Innovation Spain Zabala Innovation Europe Igor Idareta

Did you know that the future of wind energy depends on more than just the wind? ????? Our data-driven predictive maintenance is the key to ensuring the reliability and efficiency of floating wind turbines. At MADE4WIND, we’ve developed an innovative approach that not only optimizes operations but also reduces maintenance costs, guaranteeing flawless performance! ???? With advanced analytical tools like vector signal methods and smart sensors, our turbines are always ready to produce clean, consistent energy. ???? #WindEnergy #Innovation #Sustainability Balram Panjwani Laura Sada Heiko Keller Marit Eggen Keld Lauridsen Simon Mosbjerg Jensen FRANCISCO JOSé POLO SáNCHEZ S?ren Randrup Daugaard Henrichsen Brian Lau Verndal Bak Nina Dahl Esben Lindgaard Norwegian University of Science and Technology (NTNU) Fibertex Nonwovens A/S ifeu - Institut für Energie- und Umweltforschung Heidelberg gGmbH Zabala Innovation Spain Zabala Innovation Europe Igor Idareta

?? Did you know that at MADE4WIND, we're innovating by using aluminum instead of steel for reinforcement bars in our concrete floaters? ???? Why does it matter? Corrosion Resistance: Aluminum has better resistance to marine corrosion, extending the lifespan of the structures. ?? Weight Reduction: Using aluminum reduces the overall weight of floating platforms, making installation and operation easier. ?? This improvement will make our platforms more durable and efficient, contributing to a more sustainable future for floating wind energy. ???? #Innovation #OffshoreEnergy #MADE4WIND #SustainableConstruction #GreenTechnology Balram Panjwani Laura Sada Heiko Keller Marit Eggen Keld Lauridsen Simon Mosbjerg Jensen FRANCISCO JOSé POLO SáNCHEZ S?ren Randrup Daugaard Henrichsen Brian Lau Verndal Bak Nina Dahl Esben Lindgaard Norwegian University of Science and Technology (NTNU) Fibertex Nonwovens A/S ifeu - Institut für Energie- und Umweltforschung Heidelberg gGmbH Zabala Innovation Spain Zabala Innovation Europe Igor Idareta

Did you know that turbine blade waste is a major challenge for the industry? Currently, many blades reach the end of their life and end up in landfills, creating a significant environmental impact. ?? What are we doing about it? ?? Reducing Waste: At MADE4WIND, our goal is to cut blade waste by 90% at the end of their lifecycle. ?? ?? Material Reuse: We will reuse over 60% of recycled materials in new high-performance structures, minimizing environmental impact. ?? We’re working to transform how we handle blade waste, promoting cleaner and more sustainable wind energy. Together, we can make a difference! ???? #WindEnergy #MADE4WIND #Recycling #Sustainability #Innovation Balram Panjwani Laura Sada Heiko Keller Marit Eggen Keld Lauridsen Simon Mosbjerg Jensen FRANCISCO JOSé POLO SáNCHEZ S?ren Randrup Daugaard Henrichsen Brian Lau Verndal Bak Nina Dahl Esben Lindgaard Norwegian University of Science and Technology (NTNU) Fibertex Nonwovens A/S ifeu - Institut für Energie- und Umweltforschung Heidelberg gGmbH Zabala Innovation Spain Zabala Innovation Europe Igor Idareta

Are you passionate about renewable energy and want to stay updated on the latest innovations in floating offshore wind? ?? Subscribe to our newsletter and discover how MADE4WIND is transforming the future of energy. Get updates on our projects, technological advancements, and key industry events directly in your inbox. ?? ?? Join us today and be part of the transition to a more sustainable world: https://lnkd.in/dQNqf38h #Newsletter #RenewableEnergy #OffshoreWind #Sustainability #Made4Wind Balram Panjwani Laura Sada Heiko Keller Marit Eggen Keld Lauridsen Simon Mosbjerg Jensen FRANCISCO JOSé POLO SáNCHEZ S?ren Randrup Daugaard Henrichsen Brian Lau Verndal Bak Nina Dahl Esben Lindgaard Norwegian University of Science and Technology (NTNU)) Fibertex Nonwovens A/S ifeu - Institut für Energie- und Umweltforschung Heidelberg gGmbH Zabala Innovation Spain Zabala Innovation Europe Igor Idareta

At MADE4WIND, we are driving a new era of wind energy with innovations that will make a difference in the sustainability and efficiency of offshore turbines: 1?? Lightweight and recyclable blades: We design lighter turbine blades that are easier to manufacture and made with recyclable materials, reducing environmental impact. 2?? High-strength materials: We integrate ultralight microfiber layers that increase toughness by 50%, optimizing blade durability with advanced FIBERTEX technology. ??? 3?? Modular manufacturing: We enhance blade production with modular preform technology, ensuring a more efficient process with fewer defects. ?? 4?? Recycled reinforcements: We utilize recyclable infusion resins like Recyclamine, advancing towards a circular economy in blade manufacturing. ?? With these innovations, MADE4WIND not only aims to improve the viability of offshore wind farms but also to make renewable energy more sustainable and accessible. ?? #RenewableEnergy #Innovation #OffshoreWind #MADE4WIND #CircularEconomy #Sustainability

Do you think it’s possible to make wind energy even greener and more sustainable? ???? At MADE4WIND, we’re on a mission to make wind energy a more eco-friendly and efficient solution. Here are our ambitious goals: ?? Reduce CO2 footprint by 15% using new cement formulations. ?? Cut blade waste by 90% at the end of their lifecycle. ?? Reuse over 60% of recycled materials in new high-performance structures. We’re leading the way toward more sustainable wind energy and want to know: do you think we can achieve these goals? ???? Join us in this green revolution and help us make a cleaner, more efficient energy transition a reality. #WindEnergy #Sustainability #MADE4WIND #GreenInnovation #CircularEconomy #EnvironmentalProtection

It's hard to believe but Let's build offshore wind floats with cutting-edge materials At MADE4WIND, we’re exploring the use of Light Weight Concrete (LWC), Heavy Weight Concrete (HWC), and composites to transform floater design. We're testing these innovative materials with small prototypes to prove their viability for larger applications. Stay tuned as we push the boundaries of offshore technology! Balram Panjwani Laura Sada Heiko Keller Marit Eggen Keld Lauridsen Simon Mosbjerg Jensen FRANCISCO JOSé POLO SáNCHEZ S?ren Randrup Daugaard Henrichsen Brian Lau Verndal Bak Nina Dahl Esben Lindgaard Norges teknisk-naturvitenskapelige universitet (NTNU) Fibertex Nonwovens A/S ifeu - Institut für Energie- und Umweltforschung Heidelberg gGmbH Zabala Innovation Spain Zabala Innovation Europe Igor Idareta

Innovation in Floating Offshore Wind for a Sustainable Future ???? At Made4Wind, we’re leading the way in floating wind energy (FOW) innovation. Our goal is to tackle current challenges by enhancing the reliability of floating platforms, facilitating mass production, and reducing costs to unlock the full potential of offshore energy. ?? The challenge is to design more compact, modular floating platforms with lightweight materials. The result? ?? More efficient energy, reduced environmental impact, and smarter use of marine resources. https://made4wind.eu/ #RenewableEnergy #Innovation #FloatingWind #Made4Wind #Sustainability Balram Panjwani Laura Sada Heiko Keller Marit Eggen Keld Lauridsen Simon Mosbjerg Jensen FRANCISCO JOSé POLO SáNCHEZ S?ren Randrup Daugaard Henrichsen Brian Lau Verndal Bak Ane Kold di Gennaro Nina Dahl Esben Lindgaard Norwegian University of Science and Technology (NTNU)) Fibertex Nonwovens A/S ifeu - Institut für Energie- und Umweltforschung Heidelberg gGmbH Zabala Innovation Spain Zabala Innovation Europe Igor Idareta