BIPV Solar mounting system

BIPV Solar mounting system is typically applied on flat open field ground or Rooftop. The  mountinged solar structure with concrete base is easy to build. It is much easier to install. Main components of solar mounting racking are high pre-assembled in our factory, which save lots of your on site installing time and cost. Components are full sides anodized even for small parts, which has a great anti-corrosion effect and long lifetime. 

Technical Information

Features

1. Aesthetics: BIPV systems are designed to seamlessly integrate solar panels into the building's architecture, offering a visually appealing and streamlined appearance. Unlike traditional solar panels mountinged on top of existing structures, BIPV systems can be incorporated directly into building materials, such as roofs, windows, facades, or canopies, providing a more aesthetically pleasing solution.

2. Space Efficiency: BIPV systems utilize the building's surfaces that would otherwise remain unused, such as roofs, facades, or windows, to generate electricity. By integrating solar panels into these surfaces, BIPV systems maximize the use of available space without requiring additional land or structure.

3. Energy Generation and Building Functionality: BIPV systems serve a dual purpose - they generate electricity while still performing the primary function of the building component they are integrated into. For example, solar panels integrated into windows still allow natural light transmission, while solar panels integrated into roofs provide weather protection. This integration adds value to the building and optimizes energy generation.

4. Cost Savings: BIPV installations can potentially save costs by replacing traditional building materials with solar panels. While the initial installation cost may be higher, the savings can be realized over time through reduced energy bills and potentially through incentives, such as feed-in tariffs or tax benefits offered for renewable energy installations.

5. Environmental Sustainability: BIPV systems contribute to environmental sustainability by generating clean and renewable energy. By integrating solar panels into buildings, they help reduce the reliance on fossil fuels and lower greenhouse gas emissions associated with electricity generation, thereby mitigating climate change.

6. Net-Zero Energy Buildings: BIPV systems play a crucial role in achieving net-zero energy buildings, where the energy consumption of the building is offset by the energy generated onsite. By integrating solar panels into various building components, BIPV systems can significantly contribute to meeting the energy needs of the building and reducing or eliminating reliance on the grid.

7. Longevity and Durability: BIPV systems are typically designed to be durable and can withstand various weather conditions. As they are integrated into the building structure, they may benefit from added protection against wind, rain, and other environmental factors. Additionally, BIPV systems often come with warranties similar to traditional solar panels, ensuring long-term performance and reliability.

Project Case