~ Summary ~

Thermography Services (UK) Ltd, in partnership with Drone Media Imaging, conducted a thermal imaging study on a 1000-year-old Grade 1 listed building over four days. Using non-invasive infrared thermography, we assessed heat loss, thermal bridging, and airflow inefficiencies to help conservationists enhance energy efficiency while preserving the property’s historic integrity. The study identified key insulation weaknesses and provided data-driven recommendations for conservation-friendly energy improvements, ensuring the long-term sustainability of the historic site.

Thermography UK-Heating Performance of a 1000-Year-Old Grade 1 Listed Property

Introduction

Grade 1 listed buildings represent some of the UK’s most historically significant structures, requiring careful conservation while balancing modern energy efficiency needs. One such property, over 1000 years old, presented unique challenges in maintaining thermal comfort while preserving its heritage. Thermography Services (UK) Ltd, in collaboration with Drone Media Imaging, conducted a detailed thermal imaging survey over four days to assess heat retention, insulation effectiveness, and airflow anomalies.

Using non-invasive infrared thermography, we mapped heat loss, cold air infiltration, and structural thermal bridging, helping conservationists develop a targeted energy efficiency strategy without compromising the building’s historical integrity.

Project Subjects

"Grade 1 listed building, historic property thermography, thermal imaging survey, assessing heat loss in Grade 1 listed buildings, infrared building surveys for historic properties, energy efficiency improvements in heritage buildings,"

Project Skills

Thermography Level 3, UAV drone, Grade 1 Listed Building Design

historic building thermography, Grade 1 listed property, thermal imaging survey, infrared building assessment, heritage property energy efficiency, non-invasive thermal inspection, conservation-friendly energy solutions, drone-assisted thermography, thermal bridging detection, airflow inefficiency analysis

Fire Thermal Imaging Monitoring
Grain Store Explosion and Fire Thermal Monitoring

Task & Objective

The thermal imaging study aimed to:

  • Assess heat loss in Grade 1 listed buildings using thermography – Identify areas of excessive thermal leakage while ensuring compliance with conservation regulations.
  • Investigate insulation performance with infrared building surveys – Detect weak points in heritage-approved insulation materials and structural elements.
  • Detect cold air ingress and airflow issues in historic buildings – Identify thermal air bridges, draughts, and reverse chimney effects affecting heating efficiency.
  • Support energy efficiency improvements in historic properties – Provide data-driven thermal reports to aid in restoration planning while preserving architectural integrity.

  • Ongoing temperature mapping of the affected areas.

  • Detection of persistent heat sources within the grain stockpile.

  • Data analysis for fire management teams, ensuring informed decision-making for extinguishment strategies.

Challenges

Our study focused on improving heating performance while respecting the property’s listed status:

  1. Non-Invasive Inspection Methods: Use drone and handheld thermal imaging to scan the structure without damaging historic features.
  2. Detailed Heat Mapping: Capture thermal performance data across different areas of the building to highlight key problem zones.
  3. Identify Structural Heat Loss Areas: Detect thermal bridging at windows, walls, and roof junctions where modern insulation retrofits may not be possible.
  4. Provide Conservation-Friendly Energy Solutions: Deliver IEC-compliant thermal reports to aid architects, conservation specialists, and property managers in planning sustainable improvements.

Results Over the Year of Thermal Imaging Study

1. Thermal Survey & Baseline Readings

  • The initial thermal imaging scan revealed significant heat loss through stone walls, wooden-framed windows, and large vaulted ceilings.
  • Areas near original fireplaces and chimneys exhibited reverse chimney effects, where warm indoor air was escaping rather than circulating efficiently.

2. Identifying Air Leakage & Structural Heat Loss

  • Thermal air bridges were detected at window frames, ceiling beams, and vaulted roof structures, indicating excessive cold air ingress.
  • Moisture retention areas were identified in parts of the property, highlighting areas susceptible to damp and heat loss.

3. Energy Efficiency Recommendations for Conservation Planning

  • The final thermal imaging report provided actionable insights for improving insulation using heritage-compliant materials, such as internal secondary glazing and breathable insulation layers.
  • Recommendations were made to adjust heating zones for better thermal comfort, ensuring warmth was retained efficiently in occupied areas while minimising energy waste.

This thermal imaging study demonstrated the power of infrared thermography in balancing conservation and energy efficiency for Grade 1 listed buildings. By conducting detailed heat mapping, we provided conservation specialists with precise data on heat loss, airflow, and structural insulation challenges. This project serves as a blueprint for integrating thermal performance assessments into historic building management, ensuring the preservation of architectural heritage without compromising modern sustainability efforts.