The marine buoy system (MBS) has been standardized and revised by the International Association of Marine Aids to Navigation and Lighthouse Authorities (IALA) to ensure vessel safety, facilitate efficient navigation, and protect the marine environment. South Korea became a member of the IALA in 2006 to respond to environmental changes and advancements in navigation technology. Since then, it has continuously served as a council state and has adopted and operated the MBS in compliance with IALA regulations. Especially, the light buoy system functions as an optical aid to navigation by utilizing light signals and is widely employed worldwide to enhance the safety of nighttime navigation, indicate the presence of obstacles, and mark navigational routes. This light buoy system is designed in accordance with quality management standards and is manufactured as a standardized light buoy. The quality management standards for the light buoy system specify the material of the buoy body, the use of steel components, the criteria for metallic mooring fittings, the types and specifications of sinkers, solar power modules, and the buoy’s power supply system. However, detailed regulations regarding batteries, a critical component of the power supply system for light buoys, have not been established, leading to an increasing number of incidents related to battery explosions and fires in recent years. The batteries used in marine light buoy systems are primarily lead-acid batteries, selected for their resistance to salt exposure and durability against external shocks and oscillation. This study aims to identify the causes of explosion and fire incidents in lead-acid batteries that are repeatedly charged and discharged by solar cells during operation. To achieve this, a fundamental analysis is conducted, including the identification of battery types, disassembly inspections, and residual voltage measurements. Additionally, circuit tracing of the charge-discharge regulator and an assessment of battery overcharging are performed to analyze the primary causes of battery-related incidents.