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Energy Inspection Application
In the field of energy and power, equipment temperature directly reflects operating state and safety risks. With the advantage of non-contact thermography, thermal imaging cameras have become a core tool for preventive maintenance of power systems. From power generation and transmission to transformation and distribution, infrared thermal imaging technology can fully cover the status detection of power equipment, realize fault warning and energy efficiency optimization, and ensure the safe and stable operation of the power grid.
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GIM Empowers Intelligent Power O&M
Comprehensively detecting the power generation system to prevent equipment overheating failure
Accurately identifying potential line defects to ensure stable transmission of the power grid
Efficiently diagnosing abnormal heating of substation equipment and improving power supply reliability
Intelligent detection of hidden dangers in the distribution electrical system to ensure terminal power safety
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Preventive Maintenance in Power Generation
Efficient power generation is the core goal of power plant operation, and thermal imaging cameras help power plants operate and maintain efficiently. For example, in coal-fired power plants, non-contact thermography can be used to detect hidden dangers such as pipeline blockage, abnormal combustion of gas units, and overheating of fan gearboxes in advance, optimize maintenance plans, reduce downtime losses, and significantly improve power generation efficiency and economic benefits.
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Thermal Power—Temperature Detection of Primary Equipment in Thermal Power Plants
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Wind Power—Infrared Detection of Main Transformer Bushings in Wind Power Plants
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Photovoltaic Power—Solar Panel Temperature Monitoring
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Hydropower—Detection of Stator Lead Wires of Turbine Generators
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Efficient Patrol Inspection of Transmission Lines
Transmission lines are long and widely distributed, making traditional manual inspections difficult. Infrared thermal imaging cameras can detect abnormal temperatures in key parts such as wire joints and insulators at a long distance without contact, accurately locating hidden dangers such as poor contact and insulation degradation. Through regular scanning, line temperature files can be established to warn of potential faults in advance, optimize inspection and maintenance plans, and significantly improve transmission reliability and O&M efficiency.
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Insulator Heating Detection
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Strain Clamp Detection
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Straight Pipe Detection
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Intelligent Detection of Substation Equipment
The safety of substation equipment is related to the stable operation of the power grid. Infrared thermal imaging cameras can remotely detect key equipment such as transformer bushings and GIS switches, accurately identifying hidden dangers such as poor contact. Through comparative analysis of temperature data, early warning of equipment deterioration trends can be given, and maintenance strategies can be scientifically formulated to effectively ensure power supply reliability.
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Temperature Detection of High-voltage Bushing
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Temperature Detection of Main Transformer Radiator
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Temperature Detection of Current Transformer
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Power Distribution Security Guard
The distribution system is directly related to the safety of terminal electricity use. Infrared thermal imaging cameras can quickly screen for abnormal temperatures in switch cabinet contacts, cable connectors, and other parts, and promptly detect hidden dangers such as overload and poor contact. Infrared thermal imaging cameras allow accurately evaluating the status of distribution network equipment, preventing electrical fire accidents, and providing users with continuous and stable power supply.
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Detection of Hidden Dangers in Power Distribution Cabinet
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Infrared Detection of Drop-out Fuse
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Infrared Detection of Desktop Transformer
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Application Examples in Various Power Grids
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