As the development of new energy sources progresses, electric vehicles are gradually replacing traditional fuel vehicles. Photovoltaic carports, as one of the most convenient ways to combine photovoltaic power stations with buildings, have gained increasing popularity in recent years. They not only provide parking and shading for vehicles but also charge electric vehicles. The construction of photovoltaic carports in industrial parks, commercial areas, hospitals, schools, and residential buildings is becoming more and more welcomed by users and enterprises, with a broad development prospect.
1. Components of photovoltaic carports:
The main components of photovoltaic carports are photovoltaic modules, photovoltaic brackets, inverters, and charging systems.
2. Classification of photovoltaic carports:
Additionally, carports can be classified into ordinary carports and waterproof carports based on their functionality. Users can also categorize photovoltaic carports into single-space, double-space, and multi-space carports according to their parking needs and cost considerations. Most photovoltaic carports feature a modular design, allowing for standalone use or combination in multiple ways, high pre-installation, easy expansion, and strong flexibility, ranging from a few parking spaces to hundreds.
3. Advantages of Kseng’s photovoltaic carports:
(1) Protect vehicles from rain and sunlight as a parking shed;
(2) Generate electricity independently, charge electric vehicles, and cause no waste disposal fees or environmental pollution;
(3) Safe and reliable, made of high-strength steel or aluminum alloy 6005-T5 and stainless steel 304 materials;
(4) Easy to install with a modular design, high pre-installation, and labor-saving installation costs;
(5) Aesthetically pleasing, low overall maintenance costs, and long service life.
Kseng's "
Carport Photovoltaic Bracket System" is an environmentally friendly demonstration of solar power in social life. It not only solves the high-temperature problem of open-air parking but also utilizes idle space for power generation, self-consumption, and grid-connected surplus electricity, integrating parking space, rooftop power generation, and architectural aesthetics. The photovoltaic + carport model brings excellent social and environmental benefits, closely following the booming development of the new energy vehicle industry, with a promising global market outlook.