Double-Acting Piston Hydraulic Cylinders for Concentrated Solar Power (CSP) Heliostat Mirror Field Angle Adjustment
Precision Actuation for High-Temperature Optical Tracking Environments
In the demanding realm of Concentrated Solar Power (CSP), the efficiency of a thermal energy plant is inextricably linked to the optical precision of its heliostat field. As an application engineer with nearly two decades dedicated to fluid power dynamics, I have observed that the difference between a profitable power station and an underperforming asset often lies in the micro-adjustments of the mirror angles. The hydraulic actuators responsible for this tracking must not only bear the mechanical load of the reflective surface but also withstand an environment that is, by design, hostile to hydraulic machinery.
We have engineered a specialized line of 複動ピストン油圧シリンダー specifically for the “Mirror Field Angle Adjustment” application. Unlike standard industrial cylinders, these actuators are constructed to combat the dual threats of intense solar radiation and desert-grade ambient temperatures. Utilizing a robust Welded 27SiMn Steel construction, we eliminate the structural weaknesses found in tie-rod designs, ensuring that the cylinder maintains rigid geometric integrity even when fully extended against high wind shears. The core challenge in this sector is seal aging—typical rubber compounds bake and crack under the reflected heat. Our solution integrates a proprietary high-temperature sealing matrix that maintains elasticity and sealing pressure, ensuring your tracking algorithms remain drift-free.
当社の先進的な製造施設にぜひお越しください
Transparency is the foundation of trust in B2B manufacturing. We invite you to virtually walk through our production lines in China, where you can witness the precision honing of our 27SiMn barrels and the automated welding processes that guarantee structural safety.

Engineering Superiority for Solar Thermal Applications
27SiMn Alloy Steel Construction
Standard A36 steel is insufficient for the dynamic wind loads faced by large-area heliostats. We utilize 27SiMn (Silicon-Manganese) alloy steel for both the barrel and the piston rod. This material offers a yield strength significantly higher than carbon steel, allowing for thinner walls (lighter weight) without compromising the buckling resistance required when the mirror is angled against a gale.
High-Temp Sealing Architecture
The primary failure mode in CSP plants is seal degradation due to thermal cycling. Our cylinders feature a specialized seal kit composed of Fluorocarbon (FKM/Viton) and PTFE composites. These materials resist hardening at temperatures exceeding 200°C and maintain lubricity even when the hydraulic fluid viscosity drops due to heat, preventing “stick-slip” motion.
Optical-Grade Positioning
Heliostats require milliradian-level accuracy. We employ precision-honed cylinder bores (Ra < 0.4μm) and advanced piston wear rings to ensure smooth, jerk-free actuation. This allows the control system to make minute adjustments to the mirror angle, keeping the focal point perfectly aligned with the receiver tower throughout the day.

Case Study: Revitalizing the “Desert Sun” Project in Gansu
課題: A 50MW Molten Salt Tower plant in the Gobi Desert was experiencing significant downtime. The original hydraulic actuators, sourced from a generic agricultural supplier, were suffering from massive seal failure. The intense UV radiation and ambient heat (reaching 45°C, with equipment surface temps over 70°C) caused the standard nitrile seals to brittle and crack, leading to fluid leaks and loss of pressure holding capability.
解決策: Ever Power intervened with a retrofit program. We deployed our “Solar-Grade” Double-Acting 27SiMn Cylinders equipped with our proprietary “Thermo-Shield” sealing system. We also upgraded the rod plating to a double-layer chrome process to better reflect incident radiation and resist the abrasion of windblown sand.
結果: The retrofit restored 98% availability to the heliostat field. Fluid consumption dropped by 85% due to the elimination of leaks. The plant operator reported a return on investment within 14 months based solely on reduced maintenance labor and fluid costs.
“The thermal stability of the Ever Power cylinders is remarkable. We no longer see the morning ‘drift’ caused by fluid viscosity changes.”
— Chen Wei, Plant Operations Director
“Sourcing from China usually worries us regarding quality, but Ever Power’s QC documentation and product finish rival top European brands.”
— Ahmed Al-Fayed, EPC Procurement Lead
“They customized the mounting trunnions to fit our legacy brackets perfectly, saving us weeks of welding work on site.”
— Sarah Jenkins, Maintenance Engineer

Technical Parameters: CSP Series Actuators
| パラメータカテゴリ | 技術仕様 | パフォーマンス上の利点 |
|---|---|---|
| 構造タイプ | 複動溶接ピストン | Maximum rigidity in compact form factor. |
| 主な材料 | 27SiMn合金鋼 | Superior tensile strength vs. weight ratio. |
| 表面処理 | Hard Chrome (30μm+) + Polishing | Reflectivity & abrasion resistance. |
| シーリングシステム | FKM (Viton) / PTFE Composite | Operates reliably up to 200°C. |
| 作動圧力 | 16 MPa~25 MPa | High force density for large mirrors. |
| Environmental Class | C4 / C5-M (Marine/Desert) | Long-term corrosion protection. |
Versatility Across the Solar Spectrum
While our 27SiMn cylinders are optimized for Tower CSP heliostats, the underlying technology is equally critical for other solar thermal architectures. In Parabolic Trough systems, the cylinders actuate the massive collector assemblies, requiring immense torque and stability to track the sun’s elevation.
Similarly, in Dish Stirling engine systems, the focal point precision requirements are even more stringent. Our low-friction seal designs allow for the “micro-stepping” hydraulic movement necessary to keep the thermal receiver at peak temperature. We also supply heavy-duty locking cylinders for stowing mirrors safely during sandstorms or high-wind events.

Custom Engineering: Your Specs, Our Factory
Ever Power operates as your manufacturing partner in China. We understand that every solar field has unique topography and wind conditions. Whether you need a modified stroke length to increase tracking range, or a specific port orientation to streamline hose routing, our R&D team is ready. We provide full 3D modeling and prototyping before mass production.
