Global Wind Turbine Market (by Location, Axis, Component, Application, & Region): Insights and Forecast with Potential Impact of COVID-19 (2022-2026)

Global Wind Turbine Market (by Location, Axis, Component, Application, & Region): Insights and Forecast with Potential Impact of COVID-19 (2022-2026)


Market Insight:

Wind energy is a form of renewable energy. Renewable energy is growing rapidly as many countries implement programmes to address climate change. When compared to many other energy sources, wind energy has a lower environmental effect. Wind turbines, with a few exceptions, do not generate pollutants that are harmful to the environment. Wind turbines may also reduce the quantity of fossil fuels utilized to create energy, lowering total air pollution and carbon dioxide emissions.

Wind turbines are mechanical devices used in wind power facilities. Wind turbines convert wind energy into electricity by using the aerodynamic force of rotor blades, which act similarly to an aeroplane wing or a helicopter rotor blade. The global wind turbine market is expected to be worth US$79.21 billion in 2023, witnessing growth at a CAGR of 5.97%, during the forecasted period.

Segment Covered:
  • By Location: In terms of location, the report identifies two segments of the global wind turbine market: Onshore and Offshore. Among the location, it is anticipated that the offshore location would experience a significant growth, at a highest CAGR. Advantages of the offshore wind turbine include increased power output as a result of steady wind flow and speedy installation of the turbines. As large corporations in the nations turn to adopting renewable and clean energy sources, the installation of offshore wind turbines is anticipated to increase during the forecast period. The global offshore wind turbine market can be divided in two segments, on the basis of installation: Fixed and Floating. Fixed wind turbine dominated the global offshore wind turbine market.
  • By Axis: On the basis of axis, the report offers two segments of the global market: Horizontal Axis and Vertical Axis. It is anticipated that the vertical wind turbines would experience the highest CAGR during the forecasted period due to their capacity to produce power efficiently in unstable and harsh situations. Some of the essential factors that would propel the demand for the vertical wind turbines across residential applications are low installation and maintenance costs, limited ground requirements, and ease of operation.
  • By Component: According to the component, the report delivers the bifurcation of wind turbine market into five segments: Rotator Blade, Generator, Gearbox, Nacelle and Others. The rotator blade segment held the maximum share in the market. Wind turbine rotator blades are airfoil-shaped blades that utilize wind energy to move the rotator of the wind turbine. The blades may exert lift in the opposite direction of the wind due to the airfoil-shaped design. The wind turbine is propelled by this force vector, which acts on the rotor. Growing competition among industry participants to enhance production capacity has led to a significant decrease in the price of rotator blades, which has increased its installation.
  • By Application: The report splits the global wind turbine market into two segments, based on the applications: Utility and Non Utility. The utility segment occupied the largest share in the market. Utility-scale wind turbines are often erected in sizable wind farms with several turbines that are linked to the country's transmission network. Large-scale utility-scale wind generating projects necessitate several land, building, and other permissions in addition to careful relationship management with various process players. Increasing rotator blade size, increasing area of wind farms, increasing efficiency of wind turbines along declining costs are the factors foreseen to drive the growth of utility wind turbine market in coming years.
Geographic Coverage:

According to this report, the global wind turbine market is divided into five regions: Asia Pacific, Europe, North America, Latin America and Middle East and Africa. The countries covered in North America region are the US, Mexico, and Canada, while Europe includes Germany, the UK, Spain, France, and Rest of Europe. Moreover, Japan, China, India, Australia, Japan, and Rest of Asia Pacific are included in the Asia Pacific region.

Asia Pacific accounted for the largest share in the global wind turbine market. The growth in wind capacity has mostly been driven by China's installed capacity. With roughly 38 GW of installed wind power in 2020, India will hold the fourth-largest position globally. By 2022, the government hopes to have 60 GW of onshore wind and 5 GW of offshore wind installed. To reach this goal, it is anticipated that there would be a significant increase in the number of projects during the next two years.

Top Impacting Factors:

Growth Drivers
  • Declining Levelized Cost of Energy (LCOE)
  • Increasing Investments
  • Federal and State Policy Support
  • Wind Turbine Financing
Challenges
  • High Entry Barriers
  • High Maintenance
Trends
  • Increasing Average Turbine Size
  • Power To X and Green Hydrogen
  • Increasing distance to Shore and Greater Water Depths
  • Technological Advancements
  • Driver: Declining Levelized Cost of Energy (LCOE)
Levelized cost of energy (LCOE), often called levelized cost of electricity, is the net present value of the unit cost of electricity over the lifetime of the asset. Technology advancements have led to larger wind farms, and farther distances from the shore, enabling energy production independent of government assistance. As a result, LCOE for offshore wind projects has decreased significantly over the past years, primarily due to lower cost and higher capacity factor. Other significant factors in lowering LCOE include supply chain management that is less expensive and financing, but costs for electrical connectivity, foundations, installation, and operation & maintenance have also decreased. Declining LCOE has supported the market growth throughout the past years.
  • Challenge: High Maintenance
The challenges associated with the design, manufacture, and usage of wind assets include corrosion, fatigue, erosion, lightning strikes, and biofouling, to name just a few. Challenges with the foundations and transition piece have negatively affected the wind turbine market. Foundation designs have to change as wind farms attempt to function with larger turbines and migrate to deeper water. The hostile sea environment makes the monopile foundations vulnerable to internal and exterior corrosion. A limited interchange of confined seawater might accelerate internal corrosion, whereas irregular electrolytic contact can significantly worsen corrosion at the splash and tidal zones. High visibility coatings are also necessary at the transition piece. However, typical paint methods can experience corrosion and UV degradation, necessitating expensive maintenance. The high maintenance and corrosion of wind turbine has negatively affected the growth of the market.
  • Trend: Increasing Average Turbine Size
Although more expensive than their smaller predecessors, larger offshore wind turbines offer exponential production growth, as electricity generation increases with the square of the rotor radius and wind speeds increase with the height of the turbine. In addition, a number of countries are reducing subsidies to offshore wind, including countries like the Netherlands. Since winds tend to increase as altitudes rise, turbine towers are getting taller to absorb more energy. Wind shear is the term for the shift in wind speed with altitude. Higher up in the atmosphere, where there are fewer surface-level obstructions like mountains, trees, and other vegetation to cause friction, the wind may move more easily. The Midwest and Northeast, two locations with higher-than-average wind shear, tend to have a concentration of wind turbine towers that are taller than 100 meters.

The COVID-19 Analysis:

Like many sectors, COVID-19 has also impacted the energy sector and threatened to derail efforts implemented to speed up the transition to clean energy. Supply and demand shocks have occurred across the energy sector as a result of widespread economic activity suspension. The wind turbine market, was also imparted by the pandemic in the initial stage due to investment curbs and supply chain disruptions caused through unavailability of workforce. But in the 2nd half, the impact of the pandemic was alleviated by favorable government policies and robust demand pulled by increased awareness of the people towards clean energy sources.

Energy is a crucial component of economic development and prosperity. The demand for energy always increases as the society advances. Despite the fact that pandemic caused serious issues in the energy sector, the move towards the clean sources of energy has sparked unprecedented interest in the wind power, thus driving the growth of wind turbine market.

Analysis of Key Players:

The global wind turbine market is moderately concentrated. Market players have implemented sustainable growth techniques in the market. To strengthen their position in the market, some of the leading competitors are pursuing various growth methods such as mergers, acquisitions, collaborations, and agreements. The key players in the global Wind turbine market are:
  • Siemens Gamesa Renewable Energy
  • General Electric Company (GE) (GE Renewable Energy)
  • Vestas Wind Systems A/S
  • Suzlon Energy Ltd.
  • Nordex SE
  • XinJiang Goldwind Science & Technology Co., Ltd.
  • Guodian Technology & Environment Group Corporation Ltd. (Guodian United
Power Technology Ltd.)
  • Shanghai Electric Group Company Ltd.
  • Enercon GmbH
  • Envision Energy
  • Zhejiang Windey Co., Ltd.
  • Ming Yang Smart Energy Group Ltd.
To achieve competitive advantage, businesses are placing a strong emphasis on research and development (R&D). For instance, Siemens Gamesa took steps in March 2020 to maintain the high level of activity across the business segment for the manufacturing, installation, and service of wind turbines. The companies are working assiduously to ensure continuity and to reduce risk in the sophisticated supply chain that underpins the wind turbine market. Additionally, organizations' installation and service-providing teams oversee the intricate international logistics, keep an eye on all borders, and uphold travel restrictions to ensure safer delivery.


1. Executive Summary
2. Introduction
2.1 Wind Turbine: An Overview
2.1.1 Wind Turbine and It’s Workflow
Table 1: Wind Turbine and It’s Workflow
2.1.2 Types Of Wind Turbines
Table 2: Tpes Of Wind Turbines
2.2 Wind Turbine Segmentation: An Overview
2.2.1 Wind Turbine Segmentation By Location and Axis
Table 3: Wind Turbine Segmentation By Location and Axis
2.2.2 Wind Turbine Segmentation By Component and Application
Table 4: Wind Turbine Segmentation By Component and Application
3. Global Market Analysis
3.1 Global Wind Turbine Market: An Analysis
3.1.1 Global Wind Turbine Market by Value
Table 5: Global Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 6: Global Wind Turbine Market by Value; 2022-2026 (US$ Billion)
3.1.2 Global Wind Turbine Market by Location (Onshore and Offshore)
Table 7: Global Wind Turbine Market by Location; 2021 (Percentage, %)
3.1.3 Global Wind Turbine Market by Axis (Horizontal Axis and Vertical Axis)
Table 8: Global Wind Turbine Market by Axis; 2021 (Percentage, %)
3.1.4 Global Wind Turbine Market by Component (Rotator Blade, Generator, Gearbox, Nacelle and Others)
Table 9: Global Wind Turbine Market by Component; 2021 (Percentage, %)
3.1.4 Global Wind Turbine Market by Application (Utility and Non Utility)
Table 10: Global Wind Turbine Market by Application; 2021 (Percentage, %)
3.1.5 Global Wind Turbine Market by Region (Asia Pacific, Europe, North America, Latin America and Middle East and Africa)
Table 11: Global Wind Turbine Market by Region; 2021 (Percentage, %)
3.2 Global Wind Turbine Market: Location Analysis
3.2.1 Global Onshore Wind Turbine Market by Value
Table 12: Global Onshore Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 13: Global Onshore Wind Turbine Market by Value; 2022-2026 (US$ Billion)
3.2.2 Global Offshore Wind Turbine Market by Value
Table 14: Global Offshore Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 15: Global Offshore Wind Turbine Market by Value; 2022-2026 (US$ Billion)
3.2.3 Global Offshore Wind Turbine Market by Installation (Fixed and Floating)
Table 16: Global Offshore Wind Turbine Market by Installation; 2021 (Percentage, %)
3.2.4 Global Fixed Offshore Wind Turbine Market by Value
Table 17: Global Fixed Offshore Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 18: Global Fixed Offshore Wind Turbine Market by Value; 2022-2026 (US$ Billion)
3.2.5 Global Floating Offshore Wind Turbine Market by Value
Table 19: Global Floating Offshore Wind Turbine Market by Value; 2017-2021 (US$ Million)
Table 20: Global Floating Offshore Wind Turbine Market by Value; 2022-2026 (US$ Billion)
3.3 Global Wind Turbine Market: Axis Analysis
3.3.1 Global Horizontal Wind Turbine Market by Value
Table 21: Global Horizontal Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 22: Global Horizontal Wind Turbine Market by Value; 2022-2026 (US$ Billion)
3.3.2 Global Vertical Wind Turbine Market by Value
Table 23: Global Vertical Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 24: Global Vertical Wind Turbine Market by Value; 2022-2026 (US$ Billion)
3.4 Global Wind Turbine Market: Component Analysis
3.4.1 Global Wind Turbine Rotator Blade Market by Value
Table 25: Global Wind Turbine Rotator Blade Market by Value; 2017-2021 (US$ Billion)
Table 26: Global Wind Turbine Rotator Blade Market by Value; 2022-2026 (US$ Billion)
3.4.2 Global Wind Turbine Generator Market by Value
Table 27: Global Wind Turbine Generator Market by Value; 2017-2021 (US$ Billion)
Table 28: Global Wind Turbine Generator Market by Value; 2022-2026 (US$ Billion)
3.4.3 Global Wind Turbine Gearbox Market by Value
Table 29: Global Wind Turbine Gearbox Market by Value; 2017-2021 (US$ Billion)
Table 30: Global Wind Turbine Gearbox Market by Value; 2022-2026 (US$ Billion)
3.4.4 Global Wind Turbine Nacelle Market by Value
Table 31: Global Wind Turbine Nacelle Market by Value; 2017-2021 (US$ Billion)
Table 32: Global Wind Turbine Nacelle Market by Value; 2022-2026 (US$ Billion)
3.4.5 Global Wind Turbine Other Components Market by Value
Table 33: Global Wind Turbine Other Components Market by Value; 2017-2021 (US$ Billion)
Table 34: Global Wind Turbine Other Components Market by Value; 2022-2026 (US$ Billion)
3.5 Global Wind Turbine Market: Application Analysis
3.5.1 Global Utility Wind Turbine Market by Value
Table 35: Global Utility Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 36: Global Utility Wind Turbine Market by Value; 2022-2026 (US$ Billion)
3.5.2 Global Non Utility Wind Turbine Market by Value
Table 37: Global Non Utility Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 38: Global Non Utility Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4. Regional Market Analysis
4.1 Asia Pacific Wind Turbine Market: An Analysis
4.1.1 Asia Pacific Wind Turbine Market by Value
Table 39: Asia Pacific Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 40: Asia Pacific Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.1.2 Asia Pacific Wind Turbine Market by Region (China, India, Australia, Japan and Rest of Asia Pacific)
Table 41: Asia Pacific Wind Turbine Market by Region; 2021 (Percentage, %)
4.1.3 China Wind Turbine Market by Value
Table 42: China Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 43: China Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.1.4 India Wind Turbine Market by Value
Table 44: India Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 45: India Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.1.5 Australia Wind Turbine Market by Value
Table 46: Australia Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 47: Australia Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.1.6 Japan Wind Turbine Market by Value
Table 48: Japan Wind Turbine Market by Value; 2017-2021 (US$ Million)
Table 49: Japan Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.1.7 Rest of Asia Pacific Wind Turbine Market by Value
Table 50: Rest of Asia Pacific Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 51: Rest of Asia Pacific Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.2 Europe Wind Turbine Market: An Analysis
4.2.1 Europe Wind Turbine Market by Value
Table 52: Europe Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 53: Europe Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.2.2 Europe Wind Turbine Market by Region (Germany, UK, Spain, France, and Rest of Europe)
Table 54: Europe Wind Turbine Market by Region; 2021 (Percentage, %)
4.2.3 Germany Wind Turbine Market by Value
Table 55: Germany Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 56: Germany Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.2.4 UK Wind Turbine Market by Value
Table 57: UK Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 58: UK Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.2.5 Spain Wind Turbine Market by Value
Table 59: Spain Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 60: Spain Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.2.6 France Wind Turbine Market by Value
Table 61: France Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 62: France Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.2.7 Rest of Europe Wind Turbine Market by Value
Table 63: Rest of Europe Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 64: Rest of Europe Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.3 North America Wind Turbine Market: An Analysis
4.3.1 North America Wind Turbine Market by Value
Table 65: North America Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 66: North America Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.3.2 North America Wind Turbine Market by Region (The US, Canada and Mexico0
Table 67: North America Wind Turbine Market by Region; 2021 (Percentage, %)
4.3.3 The US Wind Turbine Market by Value
Table 68: The US Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 69: The US Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.3.4 Canada Wind Turbine Market by Value
Table 70: Canada Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 71: Canada Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.3.5 Mexico Wind Turbine Market by Value
Table 72: Mexico Wind Turbine Market by Value; 2017-2021 (US$ Million)
Table 73: Mexico Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.4 Latin America Wind Turbine Market: An Analysis
4.4.1 Latin America Wind Turbine Market by Value
Table 74: Latin America Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 75: Latin America Wind Turbine Market by Value; 2022-2026 (US$ Billion)
4.5 Middle East And Africa Wind Turbine Market: An Analysis
4.5.1 Middle East And Africa Wind Turbine Market by Value
Table 76: Middle East And Africa Wind Turbine Market by Value; 2017-2021 (US$ Billion)
Table 77: Middle East And Africa Wind Turbine Market by Value; 2017-2021 (US$ Billion)
5. Impact of COVID-19
5.1 Impact of COVID-19
5.1.1 Impact of COVID-19 on Wind Turbine Market
5.1.2 Impact of COVID 19 on Wind Power Installations
Table 78: Global Total Wind Power Installations; 2016-2020 (Giga Watt)
5.1.3 Post-COVID Scenario
6. Market Dynamics
6.1 Growth Drivers
6.1.1 Declining Levelized Cost of Energy (LCOE)
Table 79: European Bottom-fixed Offshore Wind Farms LCOE, 2017-2021 (US$/MWh)
6.1.2 Increasing Investments
Table 80: Europe New Asset Financing for Wind Energy ; 2017-2020 (US$ Billion)
6.1.3 Federal and State Policy Support
Table 81: Key Offshore Wind Markets Stated Capacity Targets; 2030 (Giga Watt)
6.1.4 Road To Net Zero
6.1.5 Wind Turbine Financing
6.2 Challenges
6.2.1 High Entry Barriers
6.2.2 High Maintenance
6.2.3 Challenges With Turbine Blades
6.3 Market Trends
6.3.1 Increasing Average Turbine Size
Table 82: Average Turbine Size for Wind Farms, 2023-2028 (Mega Watt)
6.3.2 Power To X and Green Hydrogen
Table 83: Wind-to-Hydrogen Projects Under Development
6.3.3 Increasing distance to Shore and Greater Water Depths
Table 84: Average Distance to Shore by Year of Commissioning, 2021-2029 (Kilometer)
6.3.4 Technological Advancements
7. Competitive Landscape
7.1 Global Wind Turbine Players by Market Share
Table 85: Global Wind Turbine Players by Market Share; 2021 (Percentage, %)
8. Company Profiles
8.1 General Electric Company (GE) (GE Renewable Energy)
8.1.1 Business Overview
8.1.2 Operating Segments
Table 86: General Electric Company (GE) Revenue by Segments; 2021 (Percentage, %)
8.1.3 Business Strategy
8.2 Vestas Wind Systems A/S
8.2.1 Business Overview
8.2.2 Operating Segments
Table 87: Vestas Wind Systems A/S Revenue by Segment; 2021 (Percentage, %)
8.2.3 Business Strategy
8.3 Siemens Gamesa Renewable Energy
8.3.1 Business Overview
8.3.2 Operating Business Units
Table 88: Siemens Gamesa Renewable Energy Backlog by Business Units; 2020 (Percentage, %)
8.3.3 Business Strategy
8.4 Nordex SE
8.4.1 Business Overview
8.4.2 Operating Segments
Table 89: Nordex SE Sales by Segments; 2021 (Percentage, %)
8.4.3 Business Strategy
8.5 Suzlon Energy Ltd.
8.5.1 Business Overview
8.5.2 Operating Segments
Table 90: Suzlon Energy Ltd. Total External Sales by Segments; 2021 (Percentage, %)
8.5.3 Business Strategy
8.6 XinJiang Goldwind Science & Technology Co., Ltd.
8.6.1 Business Overview
8.6.2 Operating Segments
Table 91: XinJiang Goldwind Science & Technology Co., Ltd. Revenue by Segment; 2021 (Percentage, %)
8.6.3 Business Strategy
8.7 Guodian Technology & Environment Group Corporation Ltd. (Guodian United Power Technology Ltd.)
8.7.1 Business Overview
8.7.2 Operating Segments
Table 92: Guodian Technology & Environment Group Corporation Ltd. Revenue by Segment; 2021 (Percentage, %)
8.7.3 Business Strategy
8.8 Shanghai Electric Group Company Ltd.
8.8.1 Business Overview
8.8.2 Operating Business Segments
Table 93: Shanghai Electric Group Revenue by Business Segment; 2020 (Percentage, %)
8.8.3 Business Strategy
8.9 Ming Yang Smart Energy Group Ltd.
8.9.1 Business Overview
8.9.2 Business Strategy
8.10 Enercon GmbH
8.10.1 Business Overview
8.10.2 Business Strategy
8.11 Envision Energy
8.11.1 Business Overview
8.11.2 Business Strategy
8.12 Zhejiang Windey Co., Ltd.
8.12.1 Business Overview
8.12.2 Business Strategy

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