The Asia Pacific wind turbine market, valued at USD 47.87 billion in 2024, is projected to grow at a compound annual growth rate of 5.4% from 2025 to 2034, driven by accelerating decarbonization mandates, rising energy demand, and technological advancements in turbine efficiency. This region has emerged as the global epicenter of wind power deployment, accounting for over 60% of global installations in 2024, with China and India serving as primary growth engines. The market’s expansion is not uniform, however, as geopolitical dynamics, regulatory frameworks, and regional manufacturing trends shape distinct investment climates and deployment timelines. China remains the undisputed leader, contributing nearly 50% of the regional market value, supported by aggressive national targets under its 14th Five-Year Plan, which mandates 1,200 GW of combined wind and solar capacity by 2030. State Grid Corporation of China’s continued investment in ultra-high-voltage (UHV) transmission corridors enables the evacuation of power from remote onshore wind farms in Xinjiang and Gansu to coastal load centers, mitigating curtailment and improving project economics. The country’s vertically integrated supply chain—encompassing domestic production of blades, generators, and towers—has driven down levelized costs of electricity (LCOE) to below USD 0.04/kWh, making wind the most cost-competitive new-build power source.
India follows as the second-largest market, with the Ministry of New and Renewable Energy (MNRE) targeting 60 GW of wind capacity by 2030, up from 44 GW in 2024. Recent policy reforms, including the Production-Linked Incentive (PLI) scheme for domestic manufacturing of high-efficiency wind turbines, are reshaping market penetration strategies by incentivizing localization. The government’s “Make in India” initiative has spurred joint ventures between global OEMs and Indian engineering firms, such as Siemens Gamesa’s partnership with L&T for nacelle assembly in Tamil Nadu. However, delays in land acquisition, grid interconnection bottlenecks, and state-level payment defaults by distribution companies (DISCOMs) remain persistent restraints. In contrast, Southeast Asia is witnessing exponential growth, particularly in Vietnam, the Philippines, and Taiwan, where favorable feed-in tariffs and auction mechanisms have attracted significant foreign direct investment. Vietnam installed over 4 GW of wind capacity in 2023 alone, driven by a deadline-based incentive structure, though grid congestion in the south has since led to curtailment rates exceeding 20%. Taiwan’s offshore wind ambitions—targeting 5.7 GW by 2026—are supported by localized content requirements that mandate 45% domestic manufacturing, fostering regional manufacturing trends in tower and foundation production.
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Cross-border supply chains in the wind sector are increasingly under strain due to geopolitical tensions, particularly between China and Western nations. The U.S. Inflation Reduction Act (IRA) and EU’s Green Deal Industrial Plan have introduced trade barriers and local content preferences, prompting Asian manufacturers to diversify export markets and establish overseas production facilities. For example, Goldwind has expanded into Latin America and Eastern Europe to mitigate overreliance on domestic demand, while Envision Energy is building blade factories in Vietnam to serve European clients seeking to circumvent potential carbon border adjustments. Japan and South Korea, though smaller in scale, are investing in floating offshore wind technology to exploit deep-water resources, with Japan’s METI allocating JPY 2 trillion for demonstration projects by 2030. These efforts are supported by public-private R&D consortia focused on next-generation turbine designs and mooring systems.
A key restraint across the region is grid integration. Despite transmission upgrades, curtailment remains a challenge, particularly in resource-rich but infrastructure-poor provinces. Additionally, skilled labor shortages in operations and maintenance hinder optimal turbine performance. Environmental and community opposition, especially in ecologically sensitive offshore zones, is also slowing project approvals in countries like the Philippines and Indonesia.
The competitive landscape is dominated by a mix of state-backed champions and global technology leaders, each leveraging scale, cost efficiency, and technical innovation.
