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Driving Sustainability The Impact of Wind Turbines on the Chemical Industry
Vinodhini Harish
12 Jul 2024
Introduction:
Imagine a day without electricity – no lights, no computers, no appliances, a halt to nearly all the modern conveniences. We all are dependent on reliable energy sources and the electricity demand continues to rise. This has shed light on sustainable and renewable energy solutions. European Commission stated that the electricity demand will double by 2050 and half will be derived from wind. In that case, how does the surging demand of wind turbine industries impact the chemical industry? How well both industries are thriving in the current times, we have explored all of it in this article. Let’s begin.
Advanced turbines to maximize the effectiveness:
China holds the pride of possessing the largest wind power capacity, making up about 37% of the entire global installed capacity. This includes the increased wind turbine sizes from 0.85MW to 2MW. Wind energy is becoming a massive global energy source, which was evident by the breaking record of 117 gigawatts installation in 2023, which is a 50% increase from the previous year.
Global Turbine market players are thriving towards performance optimization and material innovation to build bigger and stronger turbines. Therefore, they are involved in developing innovative resins or high-performance resins for designs with remarkable qualities such as increased sturdiness, strength and lightweight.
Additionally, the rigorous operating environment requires resins with superior strength, fatigue resistance and improved weather tolerance, therefore the market players choose the cutting -edge resins for manufacturing. However, efforts continue to develop lightweight epoxy composites that maximize the effectiveness and performance of the blades.
Other advanced production techniques such as robotic systems for automated layup, quality control techniques, and digital monitoring have reduced human error, increased consistency and optimized production workflows. Since the production of wind turbines requires a lot of manual labour in the conventional production processes, this automation and modern techniques have advanced the production processes and possibly lower production costs.
Danish wind turbine manufacturer introduces effective recycling of epoxy-based turbine blades!
Danish wind turbine manufacturer Vestas, a Danish company that is a global leader in sustainable energy solutions, they are on a mission to transform the global energy system working on designing, installing, and maintaining wind energy projects across the globe. Now, they have presented a novel method of recycling epoxy-based turbine blades without affecting the design or the composition of the material itself.
The good news is that the chemical process can be applied to the blades that are currently in operation thereby eliminating the issue of landfill disposal of epoxy-blades when they are decommissioned. Vestas’ solution deploys a chemical process that breaks down the epoxy resin into virgin-grade materials using commoditized chemicals in a normal environment and pressure without utilizing much energy for recycling.
Although the activities are carried out to foster the development towards sustainability such as replacing the resins with materials that are easier to break, this is considered a great move towards sustainability as it was never easy to recycle the epoxy-wind turbines as it was made of this resilient substance which is impossible to breakdown into reusable components.
Epoxy resin wind turbines and other advanced formulations:
The advent of cutting-edge resin formulations has matched the stringent performance requirements for wind turbines. This added to the guarantee of wind turbine blades dependability, efficiency, high strength, and superior fatigue resistance. Also, the formulations can endure severe weather conditions, UV exposure and temperature swings.
Currently, there is an emphasis on bio-based epoxy substitutes with a lower carbon impact. The conventional epoxide resins used in the wind power industries are largely derived from petroleum, thereby they are not considered sustainable solutions. Therefore, the market players are using renewable resources such as plant oils, agricultural byproducts, and other materials that may lessen the environmental effect of resin production. Additionally, they are also choosing manufacturing methods such as closed-loop systems that reduce waste and emissions.
Growth opportunities in the wind turbine industry:
The current and projected efforts to install wind and solar energy systems are not adequate to achieve net zero carbon emissions by 2030. It is expected to fall short by 29%. Therefore to achieve the environmental goals renewable energy companies are expected to accelerate the deployment of these renewable energy sources.
Manufacturers are working towards “sustainability in manufacturing the wind turbines, and blades of the turbines”. The two key strategies are curbing waste and building new ones with more sustainable materials.
Wind turbines impacting the growth of the chemical industry:
To leverage the efficiency and longevity of the wind turbines, the manufacturers utilized specialized chemicals and technological developments. Wind turbines require advanced materials such as high-strength composites, epoxy, specialty alloys, corrosion-resistant coatings and other materials, these are driving innovation and growth in chemical manufacturing.
Likewise, the wind turbine blades are made of fibreglass-reinforced resins, epoxy resins or carbon fibre composites. This attribute has increased the demand for resins, polymers and additives.
For instance, offshore facilities are severely exposed to hostile marine conditions hence corrosion imposes a serious threat to the structural integrity of the wind turbines. It also affects the operational efficiency. Therefore in such cases, the role of anti-corrosion coatings plays a significant role. Understandably the momentum for the chemicals involved in these coatings creates a significant impact on the chemical industry.
Likewise, the demand for sealants and adhesives for the sealing of wind turbine parts is also increasing as these adhesives and sealants are specifically made for peculiar bonding. To maximize the dependability and efficiency, the manufacturers are investing in R&D to create high-performance adhesive technologies to withstand harsh operating environments.
With the presence of favourable growth opportunities and rising investments in the development of wind turbines for the adoption of renewable energy resources, the demand for the chemicals used for the manufacturing and operation of these wind turbines is also rising.
Governmental programs towards cutting down on carbon emissions are also favouring the growth of wind turbines and thereby creating a great impact on the growth of the chemical industry.
Case studies:
SWANCOR is a specialized resin manufacturer that focuses on advanced materials for wind turbines, their contributions towards the wind energy sector are phenomenal. They are known for developing high-performance epoxy and vinyl ester resins used in the production of wind turbine blades, which offer superior mechanical properties such as durability, and resistance to environmental stressors.
Arkema has developed a thermoplastic resin called Elium® that is recyclable yet more sustainable than other materials available in the market for wind turbine blades. These resins offer excellent mechanical properties as the conventional ones yet they are easier to recycle at the end of the blade’s life.
Covestro is a leading global manufacturer of high-tech polymer materials, known for their sustainable practices and their focus on manufacturing advanced materials for varied industries such as automotive, construction, electronics and others. They have launched Baydur® and Desmodur® polyurethane systems that are utilized for the production of lightweight and durable wind turbine blades. They have also obtained DNV certification for these specially developed polyols which confirms their good mechanical properties appropriate for the rotor blades for the wind turbines.
The advanced materials have paved the way for manufacturing lighter and longer blades, and are more flexible for design optimization. Especially, they possess excellent flow properties and exhibit very low viscosity, long pot life and fast curing. Therefore it enables better infusion in the blae composite materials.
Covestro has also developed a specialized machine named Baulé to enable direct infusion of high-performance polyurethane into the turbine blades.
Closing remarks:
The push towards renewable energy is higher and expected to intensify more, therefore the key market players like SWANCOR, Covestro, and Arkema are developing high-performance, sustainable resins to enhance the efficiency, durability and environmental resistance of the wind turbine components. These innovations are expanding the limits of the chemical industry’s portfolio and capacities. Additionally the focus on sustainable solutions not only supports the green energy sector, but it also fosters global sustainable goals and long-term growth in the chemical industry.
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