Thermal Imaging
Elevate your building’s performance with advanced thermal imaging
Waxwing Energy offers thermal imaging services that can significantly improve the thermal performance of your buildings, ensuring maximum energy efficiency and comfort.
With the help of cutting-edge infrared cameras, thermal imaging is an essential tool for detecting a building’s thermal inefficiencies.
At Waxwing Energy, our expertise goes beyond mere diagnostics. We use thermal imaging to enhance the effectiveness of our air pressure testing services and address a wide range of thermal challenges.
Why Choose Waxwing Energy for Your Thermal Imaging Needs?
Versatile Diagnostic Tool: From supporting air tightness diagnostics to identifying problematic underfloor heating circuits, our thermal imaging services cover a broad spectrum of needs.
Expert Problem-Solving: We excel at detecting cold bridges and uncovering missing insulation, particularly in cavity and timber frame walls, helping to prevent energy loss and improve comfort.
Comprehensive Support: Our use of thermal imaging is part of a holistic approach to optimizing your building’s performance, complementing our suite of diagnostic services.
Utilising infrared technology, thermal imaging allows us to see what’s invisible to the naked eye, providing a clear picture of a building’s thermal behaviour:
- Identifying areas of energy loss
- Ensuring insulation is correctly installed and effective
- Detecting potential issues before they become costly problems
The service targets common and complex issues, and can assist with:
- Cold Bridge and Insulation Detection: Pinpoint cold bridges and areas of missing insulation, crucial steps in preventing heat loss and enhancing overall building performance.
- Underfloor Heating Diagnostics: Identify and resolve underfloor heating issues quickly, ensuring optimal operation and comfort.
- Enhanced Air Tightness Testing: By integrating thermal imaging with our air pressure testing, we provide a more comprehensive analysis of your building’s airtightness and thermal efficiency.
