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Onshore Wind Market by Component (Turbines, Electrical Infrastructure), By Turbine Rating (below 2 MW, 2-3 MW, 3-5 MW, and above 5 MW) and Region - Global Forecast to 2035..., Market Research Report: MarketsandMarkets

Дата публикации: 06-07-2026 00:00:00



Основное содержимое страницы с новостью.

Onshore Wind Market by Component (Turbines, Electrical Infrastructure), By Turbine Rating (below 2 MW, 2-3 MW, 3-5 MW, and above 5 MW) and Region - Global Forecast to 2035

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USD 321.14 BN

MARKET SIZE, 2035

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OVERVIEW

onshore-wind-market Overview

Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis

The onshore wind market is projected to grow at a CAGR of 10.3% during the forecast period, increasing from an estimated USD 132.47 billion in 2026 to USD 321.14 billion by 2035. The global onshore wind market is primarily driven by increased electricity demand and supportive government policies that enable reductions in greenhouse gas emissions. Technological advancements in larger, more efficient turbines, declining levelized cost of electricity (LCOE), expanding grid infrastructure, and increasing corporate renewable energy procurement are further driving installations. Additionally, energy security will continue to drive investment in onshore wind energy, as more capital is allocated to domestic renewable energy generation capacity for long-term use.

KEY TAKEAWAYS

  • BY REGION

    The Asia Pacific accounts for the largest market share of 71.0% in 2025.

  • BY COMPONENT

    By component, the turbines segment is projected to grow at a CAGR of 10.4% from 2026 to 2035.

  • BY TURBINE RATING

    By end user, the above 5 MW segment is projected to grow at the highest CAGR of 13.4% from 2026 to 2035.

  • COMPETITIVE LANDSCAPE - KEY PLAYERS

    Companies such as Vestas (Denmark), Mingyang Smert Energy Group Co., Ltd. (China), and Goldwind (China), were identified as some of the star players in the offshore wind market.

  • COMPETITIVE LANDSCAPE - STARTUPS/SMEs

    Flower Turbines (US), EWT (Netherlands) and Letwind (Italy) have distinguished themselves among the Startups and SMEs in the offshore wind market.

An onshore wind system is a land-based renewable energy installation that converts the kinetic energy of wind into electricity using wind turbines. A typical onshore wind project comprises rotor blades, a nacelle housing the drivetrain and generator, a tower, electrical infrastructure, and grid-connection equipment, all designed to efficiently capture wind energy and deliver clean power to the electricity network. Owing to its mature technology, competitive cost profile, and scalability, onshore wind has become one of the most widely deployed renewable energy sources globally. Onshore wind farms are used in utility-scale, commercial, and community energy applications to support decarbonization, strengthen energy security, and reduce reliance on fossil-fuel-based power generation. Continuous advancements in turbine design, including larger rotor diameters, taller hub heights, digital monitoring systems, and predictive maintenance technologies, are improving energy yields and operational efficiency while lowering lifecycle costs

TRENDS & DISRUPTIONS IMPACTING CUSTOMERS' CUSTOMERS

Increasing investment in renewable energy infrastructure, ambitious decarbonization targets, and growing demand for clean electricity are expected to drive growth in the offshore wind market. Furthermore, supportive government policies, onshore wind auctions, long-term power purchase agreements (PPAs), and favorable regulatory frameworks across major economies are attracting substantial investments into onshore wind projects.

onshore-wind-market Disruptions

Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis

MARKET DYNAMICS

OPPORTUNITIES

Impact
Level

  • Transmission Infrastructure Gaps Restrict Onshore Wind Capacity Expansion

Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis

The accelerating expansion of global renewable energy targets is a key driver for the onshore wind market, as governments, utilities, and private investors seek scalable and cost-effective technologies to decarbonize electricity generation. Alongside solar photovoltaics (PV), onshore wind forms the backbone of renewable capacity additions due to its technological maturity and competitive levelized cost of electricity. According to the International Renewable Energy Agency (IRENA), the world added a record 585 GW of renewable power capacity in 2024, with solar PV contributing approximately 452 GW and wind energy around 113 GW, underscoring the dominant role of these two technologies in the global energy transition. As renewable energy targets become more ambitious and electricity demand continues to rise, developers are increasingly investing in integrated wind–solar portfolios to improve grid reliability and optimize land and transmission assets. The complementary generation profiles of onshore wind and solar PV, combined with advances in energy storage and digital grid management, are expected to accelerate project deployment and create sustained growth opportunities across the global onshore wind value chain.

Grid integration challenges remain a significant restraint on the global onshore wind market, limiting the pace at which new capacity can be deployed despite strong policy support and declining generation costs. Many of the world’s best wind resources are located in remote regions where transmission infrastructure is insufficient to transport electricity efficiently to major demand centers. As a result, developers frequently encounter delays in securing grid connections, curtailment risks, and rising project costs. In Germany, congestion between northern wind-producing regions and southern industrial hubs has necessitated costly redispatch measures and highlighted the need for expanded transmission corridors. In the United States, renewable energy projects face lengthy interconnection queues, with grid upgrade requirements delaying commercial operations in several states. India continues to invest in the Green Energy Corridor program, yet transmission bottlenecks in wind-rich states such as Tamil Nadu and Gujarat can hinder the timely integration of projects. Similarly, western and northern China have historically experienced curtailment due to mismatches between renewable generation and transmission capacity, although ongoing ultra-high-voltage network investments are helping address these issues. Without accelerated grid modernization, storage deployment, and cross-regional transmission expansion, integration constraints are expected to remain a key obstacle to sustained growth in the onshore wind market.

Repowering aging onshore wind farms presents a significant growth opportunity for the global onshore wind market by enabling operators to replace older, lower-capacity turbines with modern, high-efficiency models while utilizing existing project sites and grid connections. Many wind farms commissioned in the late 1990s and early 2000s are approaching the end of their design life, making them ideal candidates for upgrades that can substantially increase electricity generation without requiring extensive new land acquisition. Repowering also reduces maintenance costs, improves reliability, and enhances project economics through higher capacity factors and advanced digital control systems. For instance, Germany, one of the world’s earliest adopters of wind energy, has numerous aging installations eligible for repowering under supportive regulatory frameworks. For instance, in June 2026, Vestas secured a 29 MW repowering order in Japan from M Winds Hachiryu Co., Ltd., a group company of Meidensha Corporation, for the Hachiryu Wind Power Station Repowering Project. The contract includes the supply and installation of seven V136-4.2 MW wind turbines along with a 10-year service agreement. Turbine delivery is scheduled for the first quarter of 2028, with project commissioning expected later in 2028, underscoring the continued investment in repowering aging wind assets to improve efficiency and extend operational life. Similarly, Denmark, Spain, and parts of the United States are seeing increased investment to replace legacy turbines with larger units capable of producing significantly more energy. This trend creates new revenue streams for turbine manufacturers, component suppliers, engineering firms, and operations and maintenance service providers while supporting national renewable energy and decarbonization goals.

Insufficient transmission infrastructure remains a major challenge for the global onshore wind market, limiting the efficient integration of new renewable energy capacity into national power grids. Many of the most productive wind resources are located in remote regions, requiring extensive investments in high-voltage transmission lines, substations, and grid reinforcement before electricity can be delivered to demand centers. Delays in transmission planning and permitting often result in project postponements, curtailment of generated power, and reduced investment returns for developers. In rapidly expanding markets, existing grid networks frequently struggle to accommodate the growing share of variable renewable energy, creating congestion and interconnection bottlenecks. Moreover, the pace of transmission expansion often lags behind wind farm development, particularly in emerging economies with limited infrastructure funding. Lengthy regulatory approvals, land acquisition issues, and rising construction costs further compound the challenge. Addressing these infrastructure gaps through coordinated grid modernization, digital management systems, and cross-regional transmission investments will be critical to unlocking the full growth potential of the global onshore wind market.

ONSHORE WIND MARKET: COMMERCIAL USE CASES ACROSS INDUSTRIES

COMPANY USE CASE DESCRIPTION BENEFITS

Whitelee Wind Farm, one of the UK’s largest onshore wind facilities, required modernization to improve energy output and operational efficiency while supporting the country’s renewable energy targets. Aging assets and evolving grid requirements made repowering and digital optimization increasingly important. Modernization enhanced annual energy production, reduced maintenance-related downtime, extended asset life, and improved overall project economics. It also supported lower lifecycle costs and increased reliability, enabling the wind farm to continue supplying renewable electricity efficiently.

The 372 MW Björnberget project in Sweden was developed to strengthen renewable electricity generation in the Nordic region while taking advantage of favorable wind resources and modern high-capacity turbine technology The project achieved higher energy capture, improved operational efficiency, and enhanced reliability, contributing substantial clean electricity to the regional grid while reducing the levelized cost of energy over the project lifetime.

Logos and trademarks shown above are the property of their respective owners. Their use here is for informational and illustrative purposes only.

MARKET ECOSYSTEM

The offshore wind market ecosystem comprises several key stakeholders, including raw material suppliers, component manufacturers, turbine OEMs, end users/power offtakers, and post-sales service providers.

onshore-wind-market Ecosystem

Logos and trademarks shown above are the property of their respective owners. Their use here is for informational and illustrative purposes only.

MARKET SEGMENTS

onshore-wind-market Segments

Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis

By component, the market can be broadly categorized into turbines and electrical infrastructure, both of which play essential roles in ensuring efficient energy production and grid integration. The turbine segment comprises key structural and functional elements such as nacelles, which house the drivetrain and generator; rotor blades, responsible for capturing wind energy; and towers, which provide the necessary height and stability for optimal wind exposure. Complementing these systems, the electrical infrastructure segment includes wires and cables for power transmission, substations for voltage transformation and grid connectivity, and other supporting electrical components that facilitate safe and reliable electricity distribution. Continuous innovation in larger turbine designs, advanced materials, digital monitoring systems, and grid modernization is enhancing operational efficiency and reducing the levelized cost of energy. As countries accelerate decarbonization efforts and expand renewable energy capacity, demand for both turbine components and electrical infrastructure is expected to strengthen, supporting sustained growth in the global onshore wind market

Based on turbine rating, the onshore wind market is broadly segmented into Up to 2 MW, 2–3 MW, 3–5 MW, and Above 5 MW categories. This segmentation reflects differences in energy generation capability, project economics, site characteristics, grid requirements, and technological advancement across onshore wind installations. The choice of turbine rating significantly influences land utilization, turbine spacing, installation costs, maintenance strategies, and overall project efficiency. Continuous innovations in rotor aerodynamics, blade materials, drivetrain design, digital controls, and predictive maintenance systems are enabling the deployment of more efficient and reliable onshore wind turbines. The Up to 2 MW segment primarily serves distributed generation projects, community wind farms, repowering initiatives, and regions with land or grid constraints. The 2–3 MW segment has been widely adopted in commercial onshore developments due to its proven reliability, balanced capital costs, and suitability for diverse wind conditions. The 3–5 MW segment represents the current mainstream of utility-scale onshore wind deployment, offering improved energy capture, higher operational efficiency, and favorable project economics while reducing the number of turbines required per project. The Above 5 MW segment comprises next-generation onshore turbines incorporating advanced blade designs, taller towers, intelligent control systems, and enhanced power electronics. These turbines are increasingly being deployed in high-resource locations to maximize energy production, optimize land use, and support the growing global transition toward renewable electricity generation.

REGION

Asia Pacific to be largest region in onshore wind market during forecast period

The Asia Pacific is the largest regional market due to substantial onshore wind capacity additions, strong government support, and extensive investments in renewable energy infrastructure across countries such as China, India, Australia, Vietnam, and emerging Asian markets. The region benefits from a robust manufacturing ecosystem for onshore wind turbines, foundations, and other critical components, enabling cost-effective project development and deployment.

onshore-wind-market Region

ONSHORE WIND MARKET: COMPANY EVALUATION MATRIX

Vestas is widely recognized as a key leader in the onshore wind market, leveraging its extensive capabilities in grid connection technologies, onshore transmission systems, and power conversion solutions. Suzlon is recognized as a leading player in the onshore wind market, holding a strong position through its comprehensive portfolio of electrical infrastructure, grid integration, and digital energy management solutions.

onshore-wind-market Evaluation Metrics

Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis

KEY MARKET PLAYERS

MARKET SCOPE

REPORT METRIC DETAILS
Market Size in 2025 (Value) (Base Year) USD 122.77 Billion
Market Size in 2026 (Value) (Estimated Year) USD 132.47 Billion
Market Forecast in 2035 (Value) (Forecast Year) USD 321.14 Billion
CAGR CAGR of 10.3% from 2026–2035
Years Considered 2023–2035
Base Year 2025
Forecast Period 2026–2035
Units Considered USD Million
Report Coverage Revenue forecast, company ranking, competitive landscape, growth factors, and trends
Segments Covered
  • By Component:
    • Turbines
    • Electrical Infrastructure
  • By Turbine Rating:
    • Below 2 MW
    • 2–3 MW
    • 4–5 MW
    • Above 5 MW
Regions Covered North America, Asia Pacific, Europe, South America, Middle East & Africa

WHAT IS IN IT FOR YOU: ONSHORE WIND MARKET REPORT CONTENT GUIDE

onshore-wind-market Content Guide

DELIVERED CUSTOMIZATIONS

We have successfully delivered the following deep-dive customizations:

CLIENT REQUEST CUSTOMIZATION DELIVERED VALUE ADDS
Client requirement for Floating offshore wind report Market sizing for Floating offshore wind countries Country-wise market attractiveness analysis, competitive landscape overview, and installation of floating onshore wind systems in high-growth economies

RECENT DEVELOPMENTS

  • March 2026 : Vestas secured a 90 MW onshore wind turbine supply contract in the UK covering 20 V136-4.5 MW turbines and a 15-year Active Output Management (AOM) service agreement, with deliveries planned from 2027.
  • April 2025 : BASF and Ming Yang Smart Energy signed a memorandum of understanding to jointly develop advanced materials and technical solutions supporting renewable energy applications, including wind turbine technologies, strengthening innovation and supply-chain cooperation.
  • April 2024 : Goldwind acquired General Electric's wind turbine manufacturing facility in Camaçari, Brazil, establishing its first overseas manufacturing base and enhancing localized production capabilities for the Latin American onshore wind market.
  • December 2023 : Vestas secured a 1,089 MW order for the SunZia Wind project in New Mexico, its largest-ever single onshore wind project globally. The contract includes 242 V163-4.5 MW turbines, supply, commissioning, and a long-term service agreement.

Table of Contents

Exclusive indicates content/data unique to MarketsandMarkets and not available with any competitors.

4

MARKET OVERVIEW

Presents a concise view of industry direction, strategic priorities, and key indicators influencing market momentum.

4.3

UNMET NEEDS AND WHITE SPACES

4.4

INTERCONNECTED MARKETS AND CROSS-SECTOR OPPORTUNITIES

4.5

STRATEGIC MOVES BY TIER-1/2/3 PLAYERS

5

INDUSTRY TRENDS

Explains the evolving landscape through demand-side drivers, supply-side constraints, and opportunity hotspots.

5.1

PORTER’S FIVE FORCES ANALYSIS

5.2

MACROECONOMIC OUTLOOK

5.2.2

GDP TRENDS AND FORECAST

5.2.3

TRENDS IN GLOBAL ONSHORE WIND INDUSTRY

5.5.1

CAPEX RANGE OF ONSHORE WIND, BY COMPONENT (2022-2025)

5.6.1

IMPORT SCENARIO (HS CODE 850231)

5.6.2

EXPORT SCENARIO (HS CODE 850231)

5.7

KEY CONFERENCES AND EVENTS, 2026-2027

5.8

TRENDS/DISRUPTIONS IMPACTING CUSTOMER BUSINESS

5.9

INVESTMENT AND FUNDING SCENARIO

5.10

IMPACT OF ONGOING GEOPOLITICAL DEVELOPMENTS IN THE MIDDLE EAST– ONSHORE WIND MARKET

5.12

IMPACT OF 2025 US TARIFF – ONSHORE WIND MARKET

5.12.3

PRICE IMPACT ANALYSIS

5.12.4

IMPACT ON COUNTRIES/REGIONS

6

TECHNOLOGICAL ADVANCEMENTS, AI-DRIVEN IMPACT AND INNOVATION

6.1.1

DIRECT-DRIVE AND HYBRID DRIVETRAIN SYSTEMS

6.2

COMPLEMENTARY TECHNOLOGIES

6.2.1

SCADA AND DIGITAL ASSET MANAGEMENT SYSTEMS

6.3

TECHNOLOGY/PRODUCT ROADMAP

6.6

IMPACT OF AI/GEN AI ON ONSHORE WIND MARKET

7

SUSTAINABILITY AND REGULATORY LANDSCAPE

7.1

REGIONAL REGULATIONS AND COMPLIANCE

7.1.1

REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS

7.2

SUSTAINABILITY INITIATIVES

7.3

SUSTAINABILITY IMPACT AND REGULATORY POLICY INITIATIVES

7.4

CERTIFICATIONS, LABELING, ECO-STANDARDS

8

CUSTOMER LANDSCAPE & BUYER BEHAVIOUR

8.1

DECISION-MAKING PROCESS

8.2

BUYER STAKEHOLDERS AND BUYING EVALUATION CRITERIA

8.3

ADOPTION BARRIERS & INTERNAL CHALLENGES

9

ONSHORE WIND MARKET, BY COMPONENT

Market Size, Volume & Forecast – USD Million

(VALUE (USD MILLION) – 2023, 2024, 2025, 2026-E, 2035-F)

9.3

ELECTRICAL INFRASTRUCTURE

10

ONSHORE WIND MARKET, BY TURBINE RATING

Market Size, Volume & Forecast – USD Million

(VALUE (USD MILLION) – 2023, 2024, 2025, 2026-E, 2035-F)

11

ONSHORE WIND MARKET, BY REGION

Market Size, Volume & Forecast – USD Million

(VALUE (USD MILLION) – 2023, 2024, 2025, 2026-E, 2035-F)

11.2.3.1.2

BY TURBINE RATING

11.3.3.1.2

BY TURBINE RATING

11.4.3.1.2

BY TURBINE RATING

11.4.3.5

REST OF ASIA PACIFIC

11.5

MIDDLE EAST & AFRICA

11.5.3.1.2

BY TURBINE RATING

11.5.3.3

REST OF MIDDLE EAST AND AFRICA

11.6.3.1.2

BY TURBINE RATING

11.6.3.2

REST OF SOUTH AMERICA

12.2

KEY PLAYER STRATEGIES/RIGHT TO WIN

12.3

REVENUE ANALYSIS, 2021-2025

12.4

MARKET SHARE ANALYSIS,

12.6

COMPANY VALUATION AND FINANCIAL METRICS

12.7

COMPANY EVALUATION MATRIX: KEY PLAYERS,

12.7.5

COMPANY FOOTPRINT: KEY PLAYERS,

12.7.5.1

COMPANY FOOTPRINT

12.7.5.2

REGION FOOTPRINT

12.7.5.3

TURBINE RATING FOOTPRINT

12.7.5.4

COMPONENT FOOTPRINT

12.8

COMPANY EVALUATION MATRIX: STARTUPS/SMES,

12.8.1

PROGRESSIVE COMPANIES

12.8.2

RESPONSIVE COMPANIES

12.9

COMPETITIVE BENCHMARKING: STARTUPS/SMES,

12.9.1

DETAILED LIST OF KEY STARTUPS/SMES

12.9.2

COMPETITIVE BENCHMARKING OF KEY STARTUPS/SMES

12.10

COMPETITIVE SCENARIO

12.10.3

OTHER DEVELOPMENTS

13.1.1.1

BUSINESS OVERVIEW

13.1.1.2

PRODUCTS & SERVICES

13.1.1.3

RECENT DEVELOPMENTS

13.1.1.4.1

KEY STRATEGIES/RIGHT TO WIN

13.1.1.4.2

STRATEGIC CHOICES MADE

13.1.1.4.3

WEAKNESSES/COMPETITIVE THREATS

13.1.5

MING YANG SMART ENERGY GROUP CO., LTD.

13.1.8

HITACHI ENERGY LTD

13.1.12

SCHNEIDER ELECTRIC

13.1.13

DONGFANG ELECTRIC WIND POWER CO., LTD.

13.1.14

SANY RENEWABLE ENERGY CO., LTD.

13.1.15

SUZLON ENERGY LTD.

13.1.16

WINDEY ENERGY TECHNOLOGY GROUP CO., LTD.

13.1.17

CRRC SHANDONG WIND POWER

13.1.18

SHANGHAI ELECTRIC WIND POWER GROUP

13.1.21

ENERCON GLOBAL GMBH

13.1.22

VAYONA ENERGY PVT. LTD.

13.1.23

SINOVEL WIND GROUP CO., LTD.

14.1.1.1

KEY DATA FROM SECONDARY SOURCES

14.1.2.1

KEY DATA FROM PRIMARY SOURCES

14.1.2.2

KEY PRIMARY PARTICIPANTS

14.1.2.3

BREAKDOWN OF PRIMARY INTERVIEWS

14.1.2.4

KEY INDUSTRY INSIGHTS

14.2

MARKET SIZE ESTIMATION

14.2.1

BOTTOM-UP APPROACH

14.2.3

BASE NUMBER CALCULATION

14.3

MARKET FORECAST APPROACH

14.6

RESEARCH ASSUMPTIONS

14.7

RESEARCH LIMITATIONS

15.2

KNOWLEDGESTORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL

15.3

CUSTOMIZATION OPTIONS

Methodology

The study involved major activities in estimating the current size of the onshore wind market. Exhaustive secondary research was done to collect information on the peer and parent markets. The next step was to validate these findings, assumptions, and sizing with industry experts across the value chain through primary research. Both top-down and bottom-up approaches were employed to estimate the complete market size. Thereafter, market breakdown and data triangulation were used to estimate the market size of the segments and subsegments.

Secondary Research

This research study on the onshore wind market involved the use of extensive secondary sources, directories, and databases, such as D&B Hoovers, Bloomberg, Businessweek, Factiva, International Energy Agency, and BP Statistical Review of World Energy, to identify and collect valuable information for a technical, market-oriented, and commercial study of the global onshore wind market. The other secondary sources included companies' annual reports, press releases, and investor presentations; white papers; certified publications; articles by recognized authors; manufacturer associations; trade directories; and databases.

Primary Research

The onshore wind market comprises stakeholders across the value chain, including onshore wind turbine manufacturers, component suppliers, onshore cable manufacturers, onshore substation providers, EPC contractors, project developers, utilities, transmission system operators, engineering consultants, digital technology providers, and operations & maintenance service providers. On the demand side, the market is driven by the increasing deployment of onshore wind projects across key regions, including Europe, Asia Pacific, and North America, supported by growing investments from utilities, independent power producers (IPPs), governments, and industrial energy consumers seeking large-scale renewable energy solutions. On the supply side, turbine manufacturers, foundation suppliers, electrical infrastructure providers, and onshore service companies are benefiting from increasing project awards, long-term supply agreements, and investments in onshore renewable energy infrastructure. Various primary sources from both the supply and demand sides of the market were interviewed to obtain qualitative and quantitative information. The following is the breakdown of primary respondents:

Onshore Wind Market   Size, and Share

Note: Others include sales managers, engineers, and regional managers.
The tiers of the companies are defined by their total revenue as of 2024: Tier 1: > USD 1 billion; Tier 2: USD 500 million–1 billion; and Tier 3: < USD 500 million.

To know about the assumptions considered for the study, download the pdf brochure

Market Size Estimation

Both top-down and bottom-up approaches were employed to estimate and validate the size of the onshore wind market and its dependent submarkets. The key players in the market were identified through secondary research, and their market share in the respective regions was determined through a combination of primary and secondary research. The research methodology involves analyzing the annual and financial reports of leading market players and conducting interviews with industry experts, including chief executive officers, vice presidents, directors, sales managers, and marketing executives, to gather key quantitative and qualitative insights into the onshore wind market.

Onshore Wind Market Top Down and Bottom Up Approach

Data Triangulation

After determining the overall market size through the estimation process explained above, the total market has been divided into several segments and subsegments. To complete the overall market engineering process and obtain exact statistics for all segments and subsegments, data triangulation and market breakdown have been employed where applicable. The data has been triangulated by studying various factors and trends from both the demand and supply sides. Additionally, the market has been validated using both top-down and bottom-up approaches.

Market Definition

The onshore wind market encompasses the development, manufacturing, and installation of land-based wind energy systems that generate electricity from wind. It includes key components such as wind turbines, nacelles, rotors and blades, towers, and supporting electrical infrastructure, including wires and cables, substations, and related balance-of-plant equipment. The market covers turbine capacity segments ranging from up to 2 MW to above 5 MW and serves utility-scale, commercial, industrial, and government-backed renewable energy projects. Market growth is driven by decarbonization initiatives, favorable regulatory policies, technological advancements in turbine design, declining electricity generation costs, and increasing investments in sustainable and energy-secure power infrastructure.

Key Stakeholders

  • Project Developers & Owners
  • Turbine Manufacturers
  • EPC Contractors & Marine Engineering Firms
  • Mooring, Anchoring, & Subsea System Providers
  • Electrical Infrastructure & Grid Connection Providers
  • Governments & Regulatory Authorities
  • Investors & Financial Institutions
  • Research Institutions & Certification Bodies
  • Energy Associations
  • Environmental Associations
  • Energy Efficiency Consultants

Report Objectives

  • To describe and forecast the onshore wind market, by turbine rating and component, in terms of value
  • To describe and forecast the onshore wind market for various segments with respect to five main regions: North America, Europe, Asia Pacific, South America, and Middle East & Africa, along with their country-level analysis, in terms of value
  • To provide detailed information regarding the major drivers, restraints, opportunities, and challenges influencing the growth of the onshore wind market
  • To analyze market opportunities for stakeholders and provide a detailed competitive landscape for market leaders
  • To strategically analyze micromarkets about individual growth trends, prospects, and contributions to the total market
  • To strategically profile the key players and comprehensively analyze their market shares and core competencies
  • To provide a detailed overview of the unmet needs and white spaces, interconnected markets and cross-sector opportunities, strategic moves by tier-1/2/3 players, onshore wind market value chain analysis, ecosystem analysis, key conferences and events, key stakeholders and buying criteria, patent analysis, trends/disruptions impacting customer business, trade analysis, tariff analysis, investment and funding scenario, technology analysis, technology/product roadmap, case study analysis, regulations, future applications, macroeconomic outlook, pricing analysis, Porter’s five forces analysis, sustainability initiatives, adoption barriers and internal challenges, market profitability, impact of regulatory policies on sustainability initiatives, certifications, labeling and eco-standards, decision making process, impact of gen AI, and the 2024 US tariff impact
  • To analyze competitive developments, such as agreements, product launches, expansions, contracts, investments, partnerships, collaborations, announcements, and acquisitions in the market

Available customizations:

MarketsandMarkets offers customizations tailored to the specific needs of companies using the given market data.

The following customization options are available for the report:

Product Analysis

  • Product matrix, which gives a detailed comparison of the product portfolio of each company

Regional Analysis

  • Further breakdown of the onshore wind systems, by country

Company Information

  • Detailed analysis and profiling of additional market players (up to five)

Key Questions Addressed by the Report

The market is projected to grow from USD 132.47 billion in 2026 to USD 321.14 billion by 2035, at a CAGR of 10.3%.

Growth is driven by rising electricity demand, supportive renewable energy policies, larger and more efficient turbines, and increasing investments in grid infrastructure.

The 3–5 MW turbine rating segment holds the largest market share due to its balance of efficiency, cost, and suitability for utility-scale projects. (PR Newswire)

Asia Pacific dominates the market, accounting for 71.0% of the global market in 2025, driven by strong renewable energy investments and manufacturing capabilities.

Leading companies include Vestas, Mingyang Smart Energy Group Co., Ltd., Goldwind, Siemens Energy, and GE Vernova.

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1Data Center Solutions Market by Infrastructure [Power (Critical Power, Backup, Distribution), Mechanical & Cooling (Air Cooled, Liquid Cooling, Heat Pumps), IT (Server, Storage, Networking), Physical (Racks, Cables)], Software - Forecast to 2031..., Market Research Report: MarketsandMarkets0502-07-2026
2Automotive Composites Market by Fiber Type (Glass, Carbon), Resin Type (Thermoset, Thermoplastic), Manufacturing Process (Compression Molding, Injection Molding, RTM), Application, Vehicle Type, and Region - Forecast to 2031..., Market Research Report: MarketsandMarkets0507-07-2026
3Flight Simulator Market by Type (Full Flight Simulators, Flight Training Devices) End Use (Pilot Training, Mission & Tactical Training), Technology (Fixed-Base, Immersive Head Mounted Display), Application, Solution, and Region - Global Forecast to 2031..., Market Research Report: MarketsandMarkets0507-07-2026
4Display Module Market by Optical Display Module, Electronic Display Module, OLEDOS, TFT LCD, LCOS, MicroLED, LCD, OLED, LED, Micro-LED, E-paper, Display Size (Microdisplays, Small & Medium-sized Display, Large Displays) - Global Forecast to 2032..., Market Research Report: MarketsandMarkets0503-07-2026
5Conformal Coating Market by Type (Acrylic, Silicone, Epoxy, Urethane, Parylene, Other types), By End-use Industry (Consumer Electronics, Automotive, Aerospace & Défense, Industrial, Telecommunication, Other End-use Industries), and Region - Global Forecast to 2031..., Market Research Report: MarketsandMarkets0503-07-2026
6Semi-Trailer Market by Type (Flatbed, Lowboy, Dry Van, Refrigerated, Tanker, Others), Tonnage (Below 25 Ton, 25-50 Ton, 51-100 Ton, above 100 Ton), Length, Number of Axles, End-Use & Region - Global Forecast to 2033..., Market Research Report: MarketsandMarkets0503-07-2026
7VSaaS Market by Type (Hosted, Managed, Hybrid), Feature (AI, Non-AI), AI Visual Analysis (Object Detection & Recognition, Intrusion Detection, Facial Recognition, Anomaly Detection), Offering (VMS, Video Analytics, Monitoring) - Global Forecast to 2032..., Market Research Report: MarketsandMarkets0507-07-2026
8Train Battery Market by Technology (Lead-acid Tubular, VRLA, Conventional; Ni-Cd Sinter, Fiber, Pocket, & Li-ion; LFP, LTO), Advanced Train (Battery-operated, and Hybrid), Rolling Stock Type, Application, Aftermarket, Region - Global Forecast to 2033..., Market Research Report: MarketsandMarkets0507-07-2026
9Data Center Chillers Market by Product (Air-Cooled Chillers, Water-Cooled Chillers, and Liquid Coolant Chillers), Technology (Scroll Chillers, Screw Chillers, and Centrifugal Chillers), and Region - Global Forecast to 2032..., Market Research Report: MarketsandMarkets0506-07-2026
10Delivery Drones Market by Payload Capacity (Up to 2, 2-5, 5-10 Kg), Range (Up to 20, 20-50, 50-100, 100-200 Km), MTOW (Up to 25, 25-55, 55-100 Kg), Endurance (Up to 30, 30-90, 90-180 Minutes), Platform, Application, and Region - Global Forecast to 2031..., Market Research Report: MarketsandMarkets0503-07-2026

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