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Fishery PV Mounting System (Floating & Fixed-Bottom)
Application: Fish Ponds, Reservoirs, Lakes, Coastal Inlets
System Types: Floating Platforms & Fixed-Bottom Structures
Key Feature: Superior Corrosion Resistance for Aquatic Environments
Unlock the dual potential of your water resources with Promisteel's innovative Fishery PV Mounting System. This solution, also known as Aquavoltaics, allows you to utilize the surface of fish ponds, lakes, and reservoirs for clean energy generation without sacrificing valuable aquaculture operations below. Our systems create a symbiotic relationship: the solar panels over water generate revenue and reduce evaporation, while providing shade that can improve water quality and create a more stable environment for fish.
We offer two distinct solutions tailored to your specific site conditions: a highly adaptable floating solar mounting system for deeper waters and a robust fixed-bottom solar for shallow water areas. As experts in steel engineering for harsh environments, we design every component to withstand the unique challenges of aquatic settings, including constant humidity, water movement, and high corrosion risk. Turn your water bodies into productive, dual-use assets with a reliable and profitable fish farm solar panel solution.
Fishery-Photovoltaic Complementary System, also known as Fishery PV System, is a hybrid renewable energy system that combines solar photovoltaic (PV) power generation with fishery activities.
Two Solutions for Your Aquatic Environment
| Solution Type | Description & Best Application | Key Features |
| Floating Solar Mounting System | A modular system built on durable, high-density polyethylene (HDPE) pontoons. The entire array floats on the water's surface and is secured by a sophisticated anchoring system. Best for reservoirs, deep lakes, and calm coastal areas. |
• Flexible, modular design • Adapts to water level fluctuations • Minimal environmental disturbance • Advanced anchoring & mooring |
| Fixed-Bottom Mounting System | A robust structure built on steel piles (such as rammed H-piles or ground screws) driven directly into the seabed or pond floor. Best for shallow water fish ponds, intertidal zones, and areas with significant water flow. |
• Ultimate structural stability • High resistance to wind and currents • Customizable height for boat access • Superior ZAM/HDG coated steel piles |
Technical Specifications
| Parameter | Specification |
| Application | Aquaculture Ponds, Reservoirs, Lakes, Calm Marine Environments |
| System Types | Floating Platform / Fixed-Bottom Pile-Driven |
| Floating Material (for Floating Type) | High-Density Polyethylene (HDPE), UV & Water Resistant |
| Structure Material (for Fixed Type) | High-Strength Steel (Q235/Q355) with ZAM or HDG Coating |
| Anchoring System (for Floating Type) | Shore-based, Bottom-anchored, or Pile-anchored |
| Foundation (for Fixed Type) | Rammed H-Pile, Spun Concrete Pile, Ground Screw |
| Design Standard | Engineered to withstand local wind, wave, and current conditions |
| Water Level Fluctuation | Floating: Accommodates large variations / Fixed: Designed for specific range |
| Corrosion Protection | Marine-grade coatings and materials for all metal components |
Engineering for the Challenges of Water
Deploying solar on water presents unique engineering challenges. Promisteel's expertise ensures your project's success.
Advanced Corrosion Resistance
We utilize marine-grade ZAM coatings and specialized materials for all structural components, connectors, and hardware to combat the highly corrosive effects of constant humidity and water contact.
Sophisticated Anchoring & Mooring
For our floating solar platforms, we design a robust anchoring system tailored to your site's bathymetry (water depth) and soil conditions. This system ensures the array remains stable and secure, even with changing water levels and external forces.
Structural Hydrodynamics
Our designs account for the dynamic loads imposed by waves, currents, and wind on water. We conduct thorough analysis to guarantee the structural integrity and long-term durability of both floating and fixed-bottom systems.
Turn Your Water Surface into a Powerhouse
The working principle of the Fishery-Photovoltaic Complementary System is to combine the solar photovoltaic power generation system with fishery activities to achieve complementary resources and improve the efficiency of power generation and fishery.
Systems typically consist of solar panels and fishing nets on floating platforms or land. During the day, solar panels absorb sunlight energy and convert it into electricity, which is converted into alternating current through an inverter. The alternating current can be used to power the water pump and aerator to provide oxygen and water circulation for the fish and can also store excess power in the battery pack for night use.
Fish are cultured through fishing nets without additional water and land resources. At the same time, under the shading effect of solar panels, the water temperature is controlled to a certain extent, which helps to improve the efficiency and quality of fish farming.
The working principle of the Fishery-Photovoltaic Complementary System is to combine renewable energy with traditional industries to achieve resource sharing, improve overall efficiency, and promote sustainable development.
Ready to explore the dual benefits of aquavoltaics? Contact our specialists to discuss your water-based solar project. We offer site assessment, system design, and comprehensive quotes.
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