Thermography

Thermography represents a sophisticated technology that enables precise and contactless temperature measurement using infrared cameras. This method allows for quick and efficient detection of thermal anomalies invisible to the human eye, making it invaluable across various industries.

Infrared cameras detect infrared radiation emitted by objects with a temperature above absolute zero. This radiation is then converted into a visible image, known as a thermogram, which clearly displays temperature differences on the surface of the object. This approach enables rapid diagnostics, problem identification, and preventive maintenance without the need for physical contact with the object.

Energy Efficiency and Infrared Thermography

Energy efficiency measures in construction are becoming increasingly demanding, and infrared (IR) thermography has proven to be a key method for the quick and accurate assessment of a building’s thermal characteristics. This technology enables the detection of thermal bridges, insulation irregularities, and the quality of windows and doors, thereby preventing energy losses.

IR thermography allows for the rapid detection of issues in hydro and thermal insulation, facilitating repairs before occupancy or within the warranty period. This method is also ideal for long-term improvements in a building’s energy efficiency.

Applications of IR thermography in construction include:

• Inspecting facades and attic insulation
• Detecting leaks in heating and plumbing systems
• Identifying leaks in flat roofs and terraces
• Monitoring work on low-energy and passive buildings
• Investigating the causes of dampness and condensation

IR thermography enables energy and maintenance cost savings, making it indispensable in modern construction practices.

Infrared Thermography in Medicine
Infrared thermography is used as a non-invasive method to detect changes in body temperature, which may indicate inflammatory processes, circulation problems, or other medical conditions. This technology enables early diagnosis, monitoring of diseases, and assessment of treatment effectiveness, all without radiation or discomfort for patients.

• Optimization of Thermal Systems: Rapid identification of energy losses in pipelines, valves, and heat exchangers.
• Monitoring Equipment Performance: Continuous monitoring of heating, cooling, and ventilation systems to ensure maximum efficiency.
• Prevention of Failures: Early detection of insulation irregularities, leaks, or overheating components.
• Energy Efficiency: Reduction of energy consumption and costs through targeted repair of detected issues.
• Workplace Safety: Increased reliability of systems through regular thermographic inspection of equipment under load.

Infrared thermography is essential for detecting irregularities and preventive maintenance in the electrical sector. Its applications include:

• Inspection of substations, distribution cabinets, and switchgear
• Inspection of electrical cabinets, machinery, and energized components
• Examination of electrical installations in factories for safety assurance
• Monitoring power lines and low-voltage networks
• Regular maintenance and inspection of solar power plants

This method enables quick problem detection, reducing the risk of failures and maintenance costs.

Infrared thermography provides a fast and reliable method for monitoring the condition of mechanical machines and devices. It allows for contactless detection of overheating and irregularities in operation, facilitating preventive maintenance, reducing repair costs, and increasing operational safety. This technology plays a key role in extending equipment lifespan and optimizing machine performance.

• Monitoring mechanical components: Detection of overheating in bearings, shafts, and gears, indicating wear or failure.
• Preventive maintenance: Identifying early signs of mechanical failures to avoid downtimes and damage.
• Performance optimization: Helping maintain optimal machine operation by reducing friction and energy losses.
• Safety inspections: Regular inspection of machines under load without the need to shut them down.
• Extending equipment lifespan: Detection of irregularities that enable timely repairs and reduce parts replacement costs.

Thermography provides a detailed view of temperature variations on surfaces without the need for physical contact, making this method safe, fast, and non-invasive. This technology not only saves time and resources but also helps identify potential issues before they lead to more serious failures.