Aerion VAWT Tower — Modular Carbon Steel
Aerion VAWT Tower — Modular Carbon Steel
Aerion VAWT Tower — Modular Carbon Steel
Height
foot
Specification
The Aerion VAWT Tower is a heavy-duty carbon steel structure designed to provide reliable elevation for Vertical Axis Wind Turbines (VAWT) and hybrid renewable energy systems (wind + solar).
Available in 3-leg and 4-leg configurations, the tower ensures structural stability under various wind loads and installation conditions — from coastal to industrial environments.
Each tower is precision-engineered to meet international safety standards and can be customized with anti-corrosion coatings, grounding, and foundation specifications according to project requirements.
Key Features
Two Structural Variants – Choose between 3-leg for lightweight systems or 4-leg for large-scale turbines and extreme wind zones.
Multiple Height Options – Available in 14 m, 18 m, 24 m, and 30 m configurations to match different turbine capacities and site conditions.
Carbon Steel Construction – Built with industrial-grade steel for high rigidity and long lifespan.
Engineered for Safety – Designed with wind load, soil condition, and vibration analysis in mind.
Custom Finishing – Galvanized or epoxy-painted to prevent corrosion and extend service life.
Easy Integration – Compatible with Aerion’s hybrid (wind + solar) system components and installation kits.
Technical Specifications
Parameter | Specification |
|---|---|
Structure Type | Lattice Tower (3-leg / 4-leg) |
Material | Carbon Steel (Q235 / Q345 grade) |
Available Heights | 14 m / 18 m / 24 m / 30 m |
Design Wind Load | Up to 55 m/s (customizable per site) |
Surface Treatment | Hot-dip galvanized / Epoxy painted (optional) |
Foundation | Site-specific reinforced concrete (required for all heights) |
Mounting Interface | Universal top plate for VAWT / hybrid head assembly |
Guying Requirement | Required for 24 m and 30 m installations |
Installation Service | Available upon request by Aerion engineering team |
Document Package | Shop drawings, foundation layout, and material BOM |
Application | VAWT / HRES / Wind-Solar Hybrid Systems |
Height Recommendations
14 m: Compact installations — small-to-mid turbines or limited space.
18 m: Standard height — balanced performance and easy maintenance.
24 m: Advanced sites — higher wind capture, requires additional guying.
30 m: Maximum performance — for industrial projects and high-wind regions.
Engineering & Services
Structural design and load analysis (wind, seismic, vibration).
Foundation design and on-site engineering verification.
Installation supervision and turnkey project services.
Optional corrosion protection and grounding integration.
Specification
The Aerion VAWT Tower is a heavy-duty carbon steel structure designed to provide reliable elevation for Vertical Axis Wind Turbines (VAWT) and hybrid renewable energy systems (wind + solar).
Available in 3-leg and 4-leg configurations, the tower ensures structural stability under various wind loads and installation conditions — from coastal to industrial environments.
Each tower is precision-engineered to meet international safety standards and can be customized with anti-corrosion coatings, grounding, and foundation specifications according to project requirements.
Key Features
Two Structural Variants – Choose between 3-leg for lightweight systems or 4-leg for large-scale turbines and extreme wind zones.
Multiple Height Options – Available in 14 m, 18 m, 24 m, and 30 m configurations to match different turbine capacities and site conditions.
Carbon Steel Construction – Built with industrial-grade steel for high rigidity and long lifespan.
Engineered for Safety – Designed with wind load, soil condition, and vibration analysis in mind.
Custom Finishing – Galvanized or epoxy-painted to prevent corrosion and extend service life.
Easy Integration – Compatible with Aerion’s hybrid (wind + solar) system components and installation kits.
Technical Specifications
Parameter | Specification |
|---|---|
Structure Type | Lattice Tower (3-leg / 4-leg) |
Material | Carbon Steel (Q235 / Q345 grade) |
Available Heights | 14 m / 18 m / 24 m / 30 m |
Design Wind Load | Up to 55 m/s (customizable per site) |
Surface Treatment | Hot-dip galvanized / Epoxy painted (optional) |
Foundation | Site-specific reinforced concrete (required for all heights) |
Mounting Interface | Universal top plate for VAWT / hybrid head assembly |
Guying Requirement | Required for 24 m and 30 m installations |
Installation Service | Available upon request by Aerion engineering team |
Document Package | Shop drawings, foundation layout, and material BOM |
Application | VAWT / HRES / Wind-Solar Hybrid Systems |
Height Recommendations
14 m: Compact installations — small-to-mid turbines or limited space.
18 m: Standard height — balanced performance and easy maintenance.
24 m: Advanced sites — higher wind capture, requires additional guying.
30 m: Maximum performance — for industrial projects and high-wind regions.
Engineering & Services
Structural design and load analysis (wind, seismic, vibration).
Foundation design and on-site engineering verification.
Installation supervision and turnkey project services.
Optional corrosion protection and grounding integration.
Specification
The Aerion VAWT Tower is a heavy-duty carbon steel structure designed to provide reliable elevation for Vertical Axis Wind Turbines (VAWT) and hybrid renewable energy systems (wind + solar).
Available in 3-leg and 4-leg configurations, the tower ensures structural stability under various wind loads and installation conditions — from coastal to industrial environments.
Each tower is precision-engineered to meet international safety standards and can be customized with anti-corrosion coatings, grounding, and foundation specifications according to project requirements.
Key Features
Two Structural Variants – Choose between 3-leg for lightweight systems or 4-leg for large-scale turbines and extreme wind zones.
Multiple Height Options – Available in 14 m, 18 m, 24 m, and 30 m configurations to match different turbine capacities and site conditions.
Carbon Steel Construction – Built with industrial-grade steel for high rigidity and long lifespan.
Engineered for Safety – Designed with wind load, soil condition, and vibration analysis in mind.
Custom Finishing – Galvanized or epoxy-painted to prevent corrosion and extend service life.
Easy Integration – Compatible with Aerion’s hybrid (wind + solar) system components and installation kits.
Technical Specifications
Parameter | Specification |
|---|---|
Structure Type | Lattice Tower (3-leg / 4-leg) |
Material | Carbon Steel (Q235 / Q345 grade) |
Available Heights | 14 m / 18 m / 24 m / 30 m |
Design Wind Load | Up to 55 m/s (customizable per site) |
Surface Treatment | Hot-dip galvanized / Epoxy painted (optional) |
Foundation | Site-specific reinforced concrete (required for all heights) |
Mounting Interface | Universal top plate for VAWT / hybrid head assembly |
Guying Requirement | Required for 24 m and 30 m installations |
Installation Service | Available upon request by Aerion engineering team |
Document Package | Shop drawings, foundation layout, and material BOM |
Application | VAWT / HRES / Wind-Solar Hybrid Systems |
Height Recommendations
14 m: Compact installations — small-to-mid turbines or limited space.
18 m: Standard height — balanced performance and easy maintenance.
24 m: Advanced sites — higher wind capture, requires additional guying.
30 m: Maximum performance — for industrial projects and high-wind regions.
Engineering & Services
Structural design and load analysis (wind, seismic, vibration).
Foundation design and on-site engineering verification.
Installation supervision and turnkey project services.
Optional corrosion protection and grounding integration.
Component
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Component
Shipping Information
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Warranty & After Sales Services
Warranty & After Sales Services
Warranty & After Sales Services