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With the continuous application of photovoltaic energy, people’s lives have been significantly improved, addressing environmental concerns in practical usage. A notable highlight is the advantages of solar street lamps, which not only meet the current electricity demands of urban construction but also considerably reduce energy consumption. This enhances the stability and practicality of street lamps during illumination, thereby addressing the real demand for nighttime travel.
Currently, due to practical usage issues, solar street lamps may be left unused for extended periods. In such environments, regular and proper maintenance is necessary to achieve optimal performance. Appropriate usage of batteries during operation is crucial to enhance their effectiveness. In cases where the lamps are left idle for long durations, it is also necessary to recharge the batteries to avoid the negative impacts of battery depletion.
Different environmental climates and temperatures can affect the performance of batteries, resulting in variations in illumination duration. Therefore, the usage of solar street lamps must take into account actual application environments and conditions. Additionally, various external factors can impact battery efficiency, such as prolonged rainy weather, which can hinder the operational efficiency of solar panels, leading to insufficient stored energy in the batteries.
Traditional street lamps have various safety hazards and stability issues during installation. If a street lamp experiences a power outage, it can affect the normal operation of other street lamp facilities. In contrast, the installation and application of solar street lamps employ independent power supply systems and structures, ensuring that damages and malfunctions do not pose safety risks and do not interfere with the operation of other street lamps.
