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Arnsberg, Germany
1-10 Employees
Talk to us, we are happy to help and benefit from our…. Taking advantage NEOCyce's environmentally friendly Wind Park Disposal and Recycling Service means saving time and money. NEOcyce will help you to successfully complete this unfortunately last project phase. We at NEOCyce are happy to offer you a solution. We are always like to get to know new companies in this field and make new contacts. We are happy to prefer regional solutions in order to avoid long transport routes. NEOcyce is specialized in the 3rd phase, the dismantling, the disposal and the fully certified recycling of wind turbines. NEOCyce is specialized in this business segment and can offer you a tailor-made solutions.
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Featured
Wind Turbine Recycling & Wind Turbine Dismantling | by NEOCyce
... SERVICE QUALITY like MADE IN GERMANY - Dismantling, Disposal and Wind Turbine Recycling including Certified Glass Fibre (GPR & GFK) Blades ...
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Featured
Home | National Manufacturing Institute Scotland (NMIS)
... Developing UK wind turbine blade recycling ...
Edmond, United States
11-50 Employees
2021
Field Material Collections; Recycling with Fiber & Chemical Compound Recovery; Composite Product Manufacturing; R&D and Engineering; Education & Training.
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About us | A4 Solutions
... The goal was to build a company dedicated to solving the problems associated with recycling wind turbine blades and other hard to recycle products constructed with fiber-reinforced composites (FRC). The founders soon realized to be the best for the industry would require providing solutions ...
Breitungen/Werra, Germany
1-10 Employees
Ihre Spezialisten für maßgeschneiderte, sichere und innovative Abbruchtechniken. Sicherheit geht vor Wir treffen alle Vorkehrungen für ein gefahrloses Arbeiten auf und um die Baustelle. Wirtschaftliches Arbeiten Wir arbeiten sauber und effizient und richten uns bei der Abraum-Entsorgung nach geltenden Bestimmungen. Durch langjährige Erfahrung haben wir uns vor allem auf diesen Gebieten profiliert und möchten Ihnen unsere Expertise anbieten. Als zertifizierter Entsorgungsfachbetrieb bieten wir Ihnen die Abwicklung des kompletten Abfallmanagements.
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Featured
Wind Turbine Dismantling - Complete dismantling, disposal and recycling
... Wind turbine dismantling and recycling ...
Stafford, United Kingdom
1-10 Employees
Leading data informs and supports our industry leading content. With expertise spanning more than 80 markets globally and driven by 800+ award-winning journalists, researchers, and analysts, we connect you with the information that makes and breaks businesses every day. With more reach, data targeting and first-party data than any other partner, we produce world-class campaigns for our clients. Give your business an edge with our leading industry insights.
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Featured
The new future of wind turbine blade recycling - Power Technology
... The new future of wind turbine blade recycling - Power ...
Phoenix, United States
501-1000 Employees
2002
Our guiding principles define a culture built on strong relationships — with each other, our customers and vendors, and the communities in which we live and work. Count on us to deliver a proven portfolio of custom solutions, personalized brokerage, and supply chain services across all modes. Connect with our experts to design a solution and quote your next move. We take a holistic approach to logistics challenges, offering a portfolio of custom solutions, personalized brokerage, and global supply chain services across all modes. Increase Manufacturing Efficiencies with Solutions for Every Move.
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Wind Blade Recycling | Blade Transportation and Recycling
... BNSF Logistics offers end-to-end wind turbine blade recycling and blade upcycling solutions, engineering services, and wind turbine blade transport. ...
Aarhus, Denmark
51-100 Employees
2002
The Interdisciplinary Nanoscience Center (iNANO) at Aarhus University is a modern research and education center which was founded by Professor Flemming Besenbacher in 2002. Since then iNANO has promoted research, education and knowledge transfer within nanoscience and nanotechnology with particular emphasis on collaboration across traditional disciplinary boundaries. In 2012 iNANO moved to the newly build and modern iNANO House, increasing the proximity between many collaborating research groups and providing space for an expansion of the necessary research infrastructure. The research at iNANO occurs mainly within five key strategic areas:. On 1 May, iNANO associated Professor Birgit Schiøtt will become dean of the Faculty of Natural Sciences. The state-of-the-art infrastructure platform at iNANO ranges from clean-room facilities for nanofabrication, over chemical synthesis to cell laboratories, and includes state-of-the art equipment for nanocharacterisation using microscopy, diffraction and spectroscopy techniques. The center hosts a multidisciplinary BSc and MSc program in Nanoscience as well as the PhD school iNANOschool.
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The Interdisciplinary Nanoscience Center at Aarhus University: Carbon Dioxide Activation Center (CADIAC)
... Award to AU-partnered project for recycling wind turbine ...
101-250 Employees
2012
We are the UK’s leading technology innovation and research centre for offshore renewable energy. The Offshore Renewable Energy Catapult was established in 2013 by the UK Government and is one of a network of Catapults set up by Innovate UK in high growth industries. ORE Catapult is overseen by an independent Board of Non-Executive Directors and an Executive Management Team. We are committed to community engagement: working with and supporting local organisations and participating in STEM (science, technology, engineering and maths) related activity, helping young people in the UK to receive a world-leading STEM education which in turn offers exciting and rewarding career options. Learn more about the latest news and insights from our Supply Chain Growth campaign. ORE Catapult has created a dedicated structure for de-risking and supporting this development. We will play a key role in delivering the UK’s net zero targets by accelerating the creation and growth of UK companies in the offshore renewable energy sector. We have world-renowned expert personnel who lead technology innovation in areas we believe the industry must focus on to drive down offshore renewable energy costs.
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Circular Economy in Offshore Wind - ORE
... Report: Sustainable Decommissioning: Wind Turbine Blade Recycling ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Wind Turbine Recycling
| Country with most fitting companies | Germany |
| Amount of fitting manufacturers | 4 |
| Amount of suitable service providers | 7 |
| Average amount of employees | 51-100 |
| Oldest suiting company | 2002 |
| Youngest suiting company | 2021 |
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Wind turbine recycling refers to the process of dismantling and reprocessing the components of wind turbines that have reached the end of their operational life. This process is essential for mitigating the environmental impact of wind energy production, as it enables the recovery of valuable materials and reduces landfill waste. Typically, a wind turbine is composed of metals, composites, and other materials, each requiring specialized recycling methods. For instance, the steel from the tower and the copper from the generator can be easily melted down and repurposed. However, the recycling of composite materials used in blades poses a greater challenge due to their complex structure, driving innovation in recycling technologies. Wind turbine recycling plays a pivotal role in the sustainability of the wind energy sector by promoting the circular economy model. Through effective recycling, the industry can minimize its ecological footprint by reusing materials, thereby reducing the need for raw material extraction and the associated environmental degradation. Furthermore, wind turbine recycling contributes to the economic viability of wind energy by potentially lowering the cost of materials and encouraging the development of a market for recycled wind turbine components. As the wind energy sector continues to grow, the importance of efficient and sustainable recycling practices becomes increasingly critical to ensure the long-term viability and environmental compatibility of this renewable energy source.
1. Environmental Preservation
Wind turbine recycling significantly reduces the environmental footprint associated with wind energy production. By repurposing materials, this process minimizes waste in landfills and conserves natural resources, contributing to a more sustainable energy landscape.
2. Cost Efficiency
Recycling wind turbines can offer economic advantages by recovering valuable materials like steel, copper, and rare earth metals. This retrieval process can offset the costs associated with manufacturing new turbines, making wind energy more cost-effective and attractive to investors.
3. Energy Efficiency
The process of recycling wind turbines is inherently energy-efficient. It requires less energy to refurbish and reuse materials than to produce new ones from scratch. This efficiency contributes to a reduction in the overall energy consumption of the wind energy sector, enhancing its sustainability profile.
4. Innovation and Job Creation
The growing emphasis on wind turbine recycling fosters innovation in recycling technologies and practices. This advancement stimulates economic growth by creating new job opportunities in the green energy and recycling sectors, supporting local economies and promoting sustainable development.
While evaluating the different suppliers make sure to check the following criteria:
1. Experience and Expertise
Ensure the supplier has extensive experience in recycling wind turbines and possesses the necessary technical expertise, including knowledge of the latest recycling technologies and processes.
2. Licensing and Certifications
Verify that the supplier holds all relevant licenses and certifications required for wind turbine recycling, ensuring compliance with national and international environmental regulations.
3. Recycling Efficiency
Assess the efficiency of the supplier’s recycling process, including the percentage of materials successfully recovered and reused. High recycling efficiency indicates a more sustainable and cost-effective operation.
4. Environmental Impact
Consider the supplier’s commitment to minimizing environmental impact during the recycling process, including measures to prevent pollution and reduce carbon footprint.
5. Cost-effectiveness
Compare the cost-effectiveness of different suppliers, considering not only the upfront recycling fees but also the potential value recovered from recycled materials.
6. Customer Service and Support
Evaluate the level of customer service and support offered by the supplier, including their responsiveness, transparency, and ability to provide detailed information about the recycling process.
Wind turbine recycling presents a notable opportunity in the construction and materials sector, where companies are increasingly seeking sustainable building materials. Recycled turbine blades can be repurposed into composite materials used in the construction of bridges, commercial buildings, and even new wind turbines. This not only reduces waste but also promotes a circular economy within the industry. In the energy sector, recycling wind turbines aligns with the growing demand for green energy solutions. Companies can showcase their commitment to sustainability by incorporating recycled materials into their operations, potentially enhancing their brand image and attracting environmentally conscious consumers and investors. Manufacturing industries stand to benefit from wind turbine recycling through the procurement of recycled metals and composites. These materials can be used in the production of cars, aircraft, and other high-strength, lightweight products. This use case supports the industry's move towards more sustainable production methods and materials sourcing. Lastly, the agricultural sector can utilize recycled wind turbine materials in the construction of durable, weather-resistant infrastructure. Recycled composites are ideal for building greenhouses, fencing, and storage facilities, offering a cost-effective and eco-friendly solution to traditional materials. Each of these use cases demonstrates the versatile benefits of wind turbine recycling across different B2B industries, paving the way for innovative, sustainable business practices.
Wind turbine recycling is at a Technology Readiness Level (TRL) of approximately 4 to 6, indicating that the technology is in the experimental or prototype phase but has not yet been fully commercialized. This positioning on the TRL scale is primarily due to several technical challenges associated with recycling the composite materials used in wind turbine blades. These blades are often made from fiberglass or carbon fiber composites, materials prized for their strength and durability but notoriously difficult to recycle. Traditional recycling methods, such as mechanical grinding, can be energy-intensive and produce lower-quality materials. Chemical recycling processes that could potentially reclaim higher-quality materials are still under development and not yet economically viable at a large scale. Additionally, the sheer size of wind turbine blades presents logistical challenges for transportation and processing. Despite these hurdles, progress is being made in developing more efficient and cost-effective recycling technologies, including advanced thermal, chemical, and mechanical recycling methods. As these technologies evolve and mature, it is expected that the TRL for wind turbine recycling will advance, facilitating a more sustainable end-of-life solution for wind turbine components.
In the Short-Term, advancements in wind turbine recycling focus on enhancing blade recycling processes. New methods for separating fiberglass and resin components in blades are being developed to increase the efficiency of material recovery. These techniques aim to enable the repurposing of composite materials for use in the automotive and construction industries, reducing landfill waste and promoting sustainability. The Mid-Term phase sees the integration of digital tools and AI to optimize recycling logistics and material tracking. By implementing smart sensors and blockchain technology, the industry aims to streamline the recycling process, from decommissioning turbines to the final repurposing of materials. This phase also anticipates the introduction of modular turbine designs, facilitating easier disassembly and recycling, thus significantly reducing environmental impact. Looking towards the Long-Term, the focus shifts to the development of fully recyclable turbines. Research is directed towards creating new, sustainable materials that can replace current composites used in turbine construction. These materials are designed to be 100% recyclable, drastically minimizing waste. Additionally, innovations in turbine design are expected to extend lifespan and efficiency, further reducing the need for frequent replacements and enhancing the overall sustainability of wind energy infrastructure.
Some interesting questions that has been asked about the results you have just received for Wind Turbine Recycling
What are related technologies to Wind Turbine Recycling?
Based on our calculations related technologies to Wind Turbine Recycling are Water/Ocean Cleaning Technologies, Waste Management, Renewable Energy, Sustainable Fashion, Smart Grid
Who are Start-Ups in the field of Wind Turbine Recycling?
Start-Ups who are working in Wind Turbine Recycling are Advanced 4 Solutions Inc
Which industries are mostly working on Wind Turbine Recycling?
The most represented industries which are working in Wind Turbine Recycling are Energy, Professional Services, Science and Engineering, Data and Analytics, Others
How does ensun find these Wind Turbine Recycling Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
