Factory roof photovoltaic is to install solar panels on the roof of industrial factory buildings, use solar energy to generate electricity, and provide green energy for factories. The following are the matters needing attention for photovoltaic on the roof of the factory:

1.Feasibility analysis

Before considering installing photovoltaic on the roof of a factory, a feasibility analysis is required. It mainly includes the selection of the roof position, the determination of the inclination and orientation, and the assessment of the shadow problem. Through feasibility analysis, it is ensured that the characteristics of the roof match the performance of the battery panels to achieve higher power generation efficiency. The following are the specific matters of the feasibility analysis:

1) Evaluation of the roof structure

Roof Structural Assessment Before photovoltaic installation, the structure of the factory roof needs to be assessed to ensure that it can withstand the weight and load of the photovoltaic system. This includes checking factors such as the strength, flatness and stability of the roof. If there is a problem with the roof structure, it will need to be repaired or reinforced to ensure it can safely host the photovoltaic system.

2) Choose the right bracket system

The bracket system is a crucial part of the photovoltaic system, which determines the installation method and angle of the photovoltaic panel, and affects the power generation efficiency of the photovoltaic system to a certain extent. Therefore, when choosing a bracket system, various factors need to be considered, such as bracket material, structure, stability, adjustable angle range, etc. At the same time, in order to ensure the stability and high efficiency of the photovoltaic system during long-term use, it is necessary to select a support system with high quality and reliability guarantee.

3) Consider environmental factors

When choosing a support system, it is also necessary to consider local environmental factors, such as natural disasters such as wind, snow, and rainfall. In order to protect the photovoltaic panel and support system, a support system with characteristics such as durability, wind and snow resistance, corrosion resistance, and rust resistance should be selected according to local environmental conditions. At the same time, during the design and installation of the support system, local wind speed, rainfall, snow depth and other factors need to be considered to ensure that the support system can operate stably under severe weather conditions and minimize damage and maintenance costs.

2. Project budget

The installation of photovoltaic on the roof of the factory requires a certain amount of funds. The budget needs to consider the cost of photovoltaic panels, the price of the structure and brackets, and installation costs (such as construction costs, transportation costs, etc.).

3. Policies and Environmental Regulations

Before installing photovoltaic on factory roofs, it is necessary to understand and comply with local regulations and policies on environmental protection, power consumption optimization, and urban planning, so as to ensure legality and bring benefits to the factory.

4.Construction plan

When installing photovoltaic panels, you should choose a professional company or construction team to perform the construction work. Before installing photovoltaic panels, it is necessary to conduct measurements, surveys and plans, formulate construction plans, and carry out construction in accordance with specifications to ensure system stability and safety.

5.Maintenance and Monitoring

Photovoltaic panels require regular maintenance, such as cleaning, waterproofing, reinforcement, etc. At the same time, it is necessary to install electronic monitoring equipment to monitor and analyze indicators such as power output and power output, identify and solve existing problems in a timely manner, and improve system reliability and intelligence.

In short, the roof photovoltaic of the factory must be reasonably designed, reasonably budgeted, meticulously constructed, and reasonably maintained and monitored based on factors such as regional characteristics, photovoltaic photovoltaic technology, and policy environment, in order to effectively use solar energy resources, reduce costs for enterprises, improve economic benefits, and achieve sustainable development.