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>> Product Advantage
1. Dual-Use Design for Fishery & Solar Power
The fishery–photovoltaic complementary support system enables simultaneous aquaculture and solar power generation on the same water surface. By installing PV modules above fish ponds, it maximizes space utilization without affecting normal fish farming activities, creating stable long-term economic benefits.
2. High Corrosion Resistance for Humid Environments
Designed specifically for water-based and high-humidity environments, the structure uses hot-dip galvanized or anti-corrosion coated steel. It effectively resists moisture, salt spray, and long-term exposure, ensuring durability and reduced maintenance requirements.
3. Optimized Height & Light Transmission
The system features a scientific structural height and spacing design to maintain proper sunlight penetration, ventilation, and oxygen exchange for aquaculture below. This ensures healthy fish growth while maintaining efficient photovoltaic power generation above.
4. Strong Structural Stability & Load Capacity
Engineered with reinforced beams and stable foundations, the support system withstands strong wind loads and environmental stresses over open water. It provides secure, long-term support for PV modules, ensuring system safety and operational reliability.
5. Flexible Layout & Cost-Effective Installation
The modular design allows flexible arrangement according to pond size and project scale. Simple connections and standardized components reduce installation time and construction costs, making it suitable for large-scale fishery–PV hybrid projects.
>> Technical Parameters
| Fish-light Complementary Support System | |||
| Material | carbon steel | Surface Treatment | ZAM coating / hot-dip galvanizing |
| Coating Thickness | customized | Feature | Anti-corrosion, anti-rust, anti-seepage, anti-biological adhesion |
| Application | Pond, lake, aquaculture farm photovoltaic integration | System Type | Fixed pile foundation |
| Service Life | About 20-25 years | Certification | ISO9001/ISO14001/ISO45001.etc |
>> Product Uses
1. Freshwater Fish Ponds & Aquaculture Farms
Installed above freshwater fish ponds to support photovoltaic panels while maintaining normal breeding conditions. The system allows efficient power generation without occupying additional land, improving overall farm profitability.
2. Shrimp, Crab & Specialized Aquaculture Areas
Suitable for shrimp, crab, and other high-value aquaculture ponds where controlled sunlight and shading help regulate water temperature while generating stable solar energy.
3. Large-Scale Fishery–PV Hybrid Power Stations
Applied in industrialized aquaculture parks combined with photovoltaic power plants, enabling centralized power generation and standardized farming management with high land-use efficiency.
4. Idle Water Surfaces & Rural Aquaculture Projects
Ideal for unused ponds, reservoirs, and rural aquaculture areas, transforming idle water surfaces into productive assets while supporting sustainable energy and modern fishery development.
>> Product Operate Guide
Site Survey & Project Planning
Inspect the fish pond or water surface conditions, including pond depth, water level variation, and wind environment. Confirm layout, column spacing, elevation height, and installation method according to design drawings.
Foundation & Column Installation
Install foundations such as concrete piles, driven steel piles, or embedded columns at the pond bottom or edges. Ensure vertical alignment, proper depth, and strong anchoring to guarantee long-term stability.
Main Steel Structure Assembly
Install main beams, secondary beams, and cross bracing to form the support framework. Use bolt connections and check levelness, spacing, and overall structural rigidity.
Mounting Rails & Height Adjustment
Fix PV mounting rails onto the steel structure and adjust the system height and tilt angle to ensure adequate sunlight and ventilation for aquaculture below.
PV Module Installation
Place solar panels onto the mounting rails and secure them with clamps. Maintain proper module spacing to allow light transmission and maintenance access.
Final Inspection & System Check
Inspect bolt tightness, corrosion protection, and grounding. Verify structural stability and ensure the system meets both photovoltaic operation and aquaculture requirements before commissioning.
>> FAQ
Q1. Does the bracket require additional anti-corrosion treatment?
A:No need! The coating and passivation treatment have been completed before leaving the factory, and it can be used directly.
Q2. Can you provide a load-bearing calculation report?
A:We can provide third-party inspection reports along with the goods and support customized wind/snow load analysis for the project.
Q3. Do you accept sample orders?
A:Support! 3 sets minimum order, shipped within 7 days, sample fee can be deducted from bulk order.
Q4. Payment method and warranty period?
A:Accept TT/LC, with a 15 year warranty (free replacement for non-human damage)
