Investor

Wind turbine blades

Detailed introduction

Jenmour New Energy's research team conducted multiple computer simulations and experimental validations—such as on-site load, sound, and dynamic measurements—on wind turbine blades, enabling them to optimize the blade design and continuously enhance both the blades' reliability, quality, and superior performance.

Features:

a. By replacing unsaturated polyester resin with high-performance epoxy resin, the bonding performance at the glass fiber/resin interface is improved, enhancing the blade's load-bearing capacity, corrosion resistance, and erosion resistance—thus ensuring long-term durability even in harsh operating environments.

b. Optimal shape design and structural optimization of large composite blades that meet aerodynamic requirements, achieving the maximum blade area with minimal blade weight—thus enhancing the blades' ability to capture wind effectively.

c. The blades are lightweight, with uniform mass distribution, precise control over their dimensional accuracy, and reliable performance even under prolonged use.

d. The wind turbine blades are designed with a metal structure at their tips, serving as lightning strike receptors that effectively protect the blades from lightning strikes, ensuring the continuous and stable operation of the wind turbine generator unit.

Premium Cases