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Solar Panel Ground Mounting Systems

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Latest company case about
Solutions Details
Created with Pixso. Home Created with Pixso. solutions Created with Pixso.

250MW centralized photovoltaic power generation EPC project

250MW centralized photovoltaic power generation EPC project

2025-07-07

Project Overview

Located in Jiangsu, the project spans over a vast water body, utilizing flooded or underutilized aquaculture ponds to host elevated solar panel structures. By employing a "solar-above, fish-below" dual-use model, the project not only maximizes land efficiency but also enhances environmental sustainability and economic benefits for local communities.

Key features of the project include:

  • Installed Capacity: 250 Megawatts (MW)

  • EPC Model: Full Engineering, Procurement, and Construction responsibilities undertaken by a leading PV system integrator

  • Design Type: Water-surface-mounted solar PV arrays using pile-driven foundations

  • Annual Power Output: Estimated to exceed 300 million kWh, enough to power over 150,000 households annually

  • Carbon Offset: More than 250,000 tons of CO₂ emissions reduced each year

Engineering 

The construction of the project posed several technical challenges, from pile driving in underwater environments to ensuring corrosion resistance and structural stability. Leveraging high-quality galvanized steel mounting structures, custom-designed racking systems, and modular floating platforms, the project team successfully overcame these obstacles.

Advanced monitoring systems have also been integrated into the design, allowing for real-time performance analytics and smart O&M (Operation & Maintenance), ensuring long-term efficiency and reliability.

Latest company case about
Solutions Details
Created with Pixso. Home Created with Pixso. solutions Created with Pixso.

250MW centralized photovoltaic power generation EPC project

250MW centralized photovoltaic power generation EPC project

2025-07-07

Project Overview

Located in Jiangsu, the project spans over a vast water body, utilizing flooded or underutilized aquaculture ponds to host elevated solar panel structures. By employing a "solar-above, fish-below" dual-use model, the project not only maximizes land efficiency but also enhances environmental sustainability and economic benefits for local communities.

Key features of the project include:

  • Installed Capacity: 250 Megawatts (MW)

  • EPC Model: Full Engineering, Procurement, and Construction responsibilities undertaken by a leading PV system integrator

  • Design Type: Water-surface-mounted solar PV arrays using pile-driven foundations

  • Annual Power Output: Estimated to exceed 300 million kWh, enough to power over 150,000 households annually

  • Carbon Offset: More than 250,000 tons of CO₂ emissions reduced each year

Engineering 

The construction of the project posed several technical challenges, from pile driving in underwater environments to ensuring corrosion resistance and structural stability. Leveraging high-quality galvanized steel mounting structures, custom-designed racking systems, and modular floating platforms, the project team successfully overcame these obstacles.

Advanced monitoring systems have also been integrated into the design, allowing for real-time performance analytics and smart O&M (Operation & Maintenance), ensuring long-term efficiency and reliability.