Global Wind Turbine Composites Material Market Size By Application (Nacelles, Blades), By Manufacturing Process (Hand Lay-Up, Prepreg), By Resin Type (Vinylester Resin, Polyester Resin), By Fiber Type (Carbon Fiber, Glass Fiber), By Geographic Scope And Forecast
Published on: 2024-08-02 | No of Pages : 320 | Industry : latest updates trending Report
Publisher : MIR | Format : PDF&Excel
Global Wind Turbine Composites Material Market Size By Application (Nacelles, Blades), By Manufacturing Process (Hand Lay-Up, Prepreg), By Resin Type (Vinylester Resin, Polyester Resin), By Fiber Type (Carbon Fiber, Glass Fiber), By Geographic Scope And Forecast
Wind Turbine Composites Material Market
The global Wind Turbine Composites Material Market size was estimated to be valued at USD 14.99 Billion in 2024 and is projected to reach USD 29.13 Billion by 2031, growing at a CAGR of 9.55% from 2024 to 2031.
According to the , the Indian government has set a target of installing around 140 GW wind energy turbines by 2030. However, enormous factors are likely to enable the installation of about 100 GW of capacity by the end of 2030. This shortfall in capacity is estimated to be avoided with the help of proactive policy and industrial strategy support to help accelerate growth. The growing number of wind energy capacity installations creates lucrative growth prospects for the Wind Turbine Composites Material Market.
Wind Turbine Composites Material MarketDefinition/Overview
Wind turbine composites are materials that combine selective resin and fiber materials to create a new material, including particulate, matrix, and layers, with enhanced properties. These materials are widely used in components of wind turbines due to their superior strength-to-weight ratio, durability, and resistance to fatigue and corrosion. In addition to this, the cost-effectiveness of wind turbine composite materials in comparison to traditional materials such as steel and aluminum are likely to steer up the sales in the coming years.
Growing dependency on fossil fuels for meeting power supply needs has led to an exhaustion of non-renewable energy sources and a huge impact on the environment, such as the melting of ice caps and global warming. These factors have shifted the focus of manufacturers and consumers from traditional means of power generation to renewable sources, which include wind turbines, waves, and solar panels. It is likely to form a wider room for the possibilities of expansion of the market.
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Which are the Drivers Contributing To the Increase in the Use of Wind Turbine composite material?
The exhaustion of non-renewable sources such as fossil fuels along with the increase in global warming is persuading organizations of all sizes to adopt renewable energy sources for power generation and grid stability. This is one of the primary factors believed to empower the market to grow at a rapid pace in the upcoming decade.
On similar grounds, the expansion of offshore wind power capacities to meet energy needs is projected to offer the wind turbine composite material manufacturers with vast opportunities to strengthen their foothold on the global platform.
Growing demand for highly efficient wind turbines is bolstering the use of lightweight, durable, superior strength-to-weight ratio, durable, and corrosion-resistant composite materials for the development of blades of different sizes, especially large. The increasing emphasis on these advantageous properties are anticipated to speed up the application of wind turbine composite material.
Furthermore, governments across the globe have launched programs initiating the development of renewable energy sources such as wind turbines to provide energy security, sustainability, and circular economy principles. In addition to this, the implementation of stringent government rules and regulations to curb the loss of energy and reduce the impact on the environment such as the melting of ice caps or carbon emissions will offer immense opportunities for the expansion of the wind turbine composite material market.
According to , onshore wind capacity escalated from 178 GW in 2010 to 699 GW in 2020 and offshore wind capacity grew from 3.1 GW in 2010 to 34.4 GW in 2020. Thus, the production of wind power increased by 5.2% from 2009 to 2019, showing a growth of almost 1412 TWh. These developments show direct proportionality with the growth of the Wind Turbine Composites Material Market.
These growth factors are projected to continue driving the growth of the Wind Turbine Composites Material Market in the coming years. As the wind energy sector expands, the demand for larger and more efficient wind turbines increases turning wind turbine composites into a critical factor enabling the transition towards a more sustainable and renewable energy future.
Will the High Cost of Resin and Fiber Deter the Wind Turbine Composites Material Market Growth?
The initial cost of the raw composite materials can be substantial, especially for complexly designed larger blades. This spurring upfront price is projected to restrain the sales of wind turbine composite materials, thereby inhibiting adoption by smaller organizations.
Also, the longer and continuous utilization throughout the lifespan leads to damage and corrosion under harsh environmental conditions. These problems pose a huge challenge in the development of the Wind Turbine Composites Material Market.
Additionally, the complexity involved in the manufacturing of wind turbine components along with the constant need for maintenance and repair steers the demand for specialized expertise, which can increase costs and lead to potential defects. The increasing installation and maintenance costing is likely to plummet sales.
Besides this, the lack of standardization in composite material manufacturing poses a huge challenge in the development of interoperable blade designs. It is likely to affect the adoption and seamless integration of these materials. Also, greenhouse gas emissions and hazardous waste generation at the time of production of resin will deter the demand for wind turbine composite material. All these challenges are predicted to slow down the growth of the market in the coming years.
Category-wise Acumens
Will Glass Fiber Segment Bolster the Sales of Wind Turbine Composites Material?
The glass fiber segment is anticipated to dominate the global Wind Turbine Composites Material Market during the forecast period. Growing demand for stronger, durable, stiffer, and minimal chemical resistant materials is projected to uptick the sales of glass fiber, and create a wide-ranging realm for wind turbine composite material.
Also, the favorable cost of the glass fiber is spurring its adoption of by the manufacturers worldwide, developing a broad spectrum for the growth of the market.
Moreover, improvements in manufacturing technologies of glass fiber, such as continuous filament winding and pultrusion, result in fueling the production of GFRP composites which are more cost-effective and efficient. These benefits assist in driving the growth of the market.
Which technology segment is Projected to Drive the Market?
Growing demand for superior-quality composite components with minimal voids and defects is propelling the application of vacuum injection molding (VIM) in the renewable energy, manufacturing, and other industrial sectors.
Rapid expansion in the renewable energy sector is bolstering the installation of wind turbines across the globe, pacing up the adoption of vacuum injection molding (VIM) for development of wind turbine composite components.
The vacuum injection molding technology is anticipated to duple the production of larger and thicker composite parts, opening new doors of opportunities for the Wind Turbine Composites Material Market. These factors are projected to source for a substantial growth of the vacuum injection molding segment by 2030.
Will Blades Become the Epicenter of Growth for the Wind Turbine Composites Material Market?
According to Market Research, the blades segment is projected to dominate the global Wind Turbine Composites Material Market. As the blades are a critical component of the wind turbine, the demand for them is expected to grow at a rapid pace in the coming years.
Also, the growing use of glass fiber-reinforced polymer (GFRP) and carbon fiber-reinforced polymer (CFRP) in wind blade manufacturing offers higher durability, strength-to-weight ratio, and corrosion resistance. Thereby, creating lucrative growth prospects for the market.
The growing presence of wind blade manufacturers is supporting the government initiatives working toward installation of wind turbines, resulting in higher production of blades.
Moreover, the use of selective composite materials in blade manufacturing offers advantages such as lightweight, higher stiffness, and improved fatigue resistance, resulting in enhanced turbine performance and longer lifespan. All these factors are anticipated to support the expansion of the market.
Country/Region-wise Acumens
What Makes Asia Pacific the Epicenter of Growth for Wind Turbine Composites Material Market?
Asia Pacific is estimated to hold a maximum share in the Wind Turbine Composites Material Market. Asia-Pacific is the hub for the production of wind energy, thereby witnessing substantial growth in the installation of wind turbines.
Governments in emerging economies such as China, Japan, and India have shifted focus from fossil fuels to renewable energy sources to meet the energy needs of the growing population, as well as reduce the impact on the environment. It is the flourishing wind energy manufacturers who play a crucial role in fueling the growth of the market.
Additionally, the low cost of raw materials and workforce in Asia Pacific is projected to boost the operation of wind energy programs contributing to the growth of the wind turbine composites materials market.
Moreover, the presence of prominent players such as Suzlon Energy Limited and AVIC Huiteng Windpower Equipment Co., Ltd in the region increases the adoption of wind turbine composite material.
Will Environment Sustainability in Canada and the U.S. Drive the Market in North America?
In North America, the wind turbine composites materials market is anticipated to exhibit significant growth throughout the forecast period. This growth is attributable to the emphasis of the Canadian and the US Government’s primary focus on environment sustainability to curb the exhaustion of non-renewable resources. This is projected to lead to the expansion of the Wind Turbine Composites Material Market.
Additionally, the wind development initiatives along with favorable renewable energy-related policies offer a suitable environment for the growth of the market.
Global Wind Turbine Composites Material Market Segmentation Analysis
The Global Wind Turbine Composites Material Market is segmented based on Application, Manufacturing Process, Resin Type, Fiber Type, And Geography.
Wind Turbine Composites Material Market, By Application
- Nacelles
- Blades
- Others
Based on Application, the market is bifurcated into Nacelles, Blades, and Others. The blade segment accounts for the highest market share in terms of revenue in 2019. The growing demand for wind energy is commencing with the construction of larger wind blades that extend higher power output, which is, in turn, ending in the increased consumption of composite materials for blades. However, the Nacelle segment is expected to grow at the highest CAGR during the forecast period, due to the growing usage of composite materials for the manufacturing of nacelles.
Wind Turbine Composites Material Market, By Manufacturing Process
- Hand Lay-Up
- Prepreg
- Vacuum Injection Molding
Based on Manufacturing Process, the market is bifurcated into Hand Lay-Up, Prepreg, and Vacuum Injection Molding. The Hand Lay-Up segment is estimated to witness the highest CAGR for the forecast period. Hand lay-up is the most simplistic composites molding method, giving low-cost tooling, simple processing, and a wide range of part sizes. Hand lay-up parts usually have one apparent, smooth side. A gel coat can be added during molding to design cosmetic finished surfaces.
Wind Turbine Composites Material Market, By Resin Type
- Vinylester Resin
- Polyester Resin
- Epoxy Resin
- Others
Based on Resin Type, the market is bifurcated into Vinylester Resin, Polyester Resin, Epoxy Resin, and Others. The Epoxy Resin segment is estimated to witness the highest CAGR for the forecast period. Epoxy resins, also known as polyepoxides, are a type of reactive prepolymers and that include epoxide groups. The preponderance of epoxy resins found in the energy sector is used in wind turbines.
Wind Turbine Composites Material Market, By Fiber Type
- Carbon Fiber
- Glass Fiber
- Others
Based on Fiber Type, the market is bifurcated into Carbon Fiber, Glass Fiber, and Others. The segment is estimated to witness the highest CAGR for the forecast period. Good durability, chemical resistance, and good stiffness offered by glass fibers and their easy availability and cost-effectiveness are essential factors driving the demand for glass fiber composites. The carbon fiber segment is also expected to grow at a considerable rate during the forecast period.
Wind Turbine Composites Material Market, By Geography
- North America
- Europe
- Asia Pacific
- Rest of the world.
Based on Geography, the Wind Turbine Composites Material Market is classified into North America, Europe, Asia Pacific, and the Rest of the world. The Asia Pacific region is expected to grow considerably in Wind Turbine Composites Material Market. The increasing demand for energy resources and emerging electric devices are some significant factors that boost the Wind Turbine Composites Material Market.
Key Players
The “Wind Turbine Composites Material Market” study report will provide valuable insight emphasizing the global market. The major players in the market are Siemens AG, Toray Industries, Teijin Limited, Gamesa Corporation Technology, Cytec Industries, Suzlon Energy Limited, Gurmit Holding AG, Vestas Wind Systems A/S, TPI Composites, Goldwind Science & Technology Co., Ltd., Mitsubishi Power, Ltd., Enercon GmbH, General Electric Company, LM Wind Power A/S, Senvion S.A., Nordex SE, Huntsman Corporation, Zoltek Companies, Inc., Owens Corning, Hexcel Corporation, SABIC, Exel Composites, Solvay S.A., Covestro, Gurit Holding AG, Evonik Industries AG, and Rotal Tencate NV.
The competitive landscape includes market share, key development strategies, and market ranking analysis of the above-mentioned players.
Key Developments
- In 2019, Covestro delivered polyurethane resin for the production of wind blades to China. It was used for the development of 18 blades with a length of 59.5 m.
- In May 2021, Hexcel launched wide range of HexPly Surface finishing prepregs and semi-prepregs for the development of blades. These blades will have further application in the marine and automotive sector.
- In June 2021, Evonik constructed a new R&D center in Shanghai, China for the development of new wind turbine components to be delivered in China.
- In April 2022, Avient Corporation signed an acquisition agreement with DSM Protective Materials to include its Dyneema brand and other unique, innovative technologies into Avient’s product line. This acquisition is expect