Combining thermography and computer simulation to identify and assess insulation defects in the construction of building façades

Taylor, Tim; Counsell, John; Gill, Steve

doi:10.1016/j.enbuild.2014.02.080

Cited by 48 publications

(26 citation statements)

References 19 publications

(22 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Also the results from this methodology can be used in combination with other techniques, such as air-tightness testing, to enhance air-leakage detection [14] and computer simulation, which can enhance defect understanding through comparison with thermal models [15,16]. However this walk-through thermography can be timeconsuming, especially in buildings with many rooms [17].…”

Section: Traditional Walk-through Thermographymentioning

confidence: 99%

Building defect detection: External versus internal thermography

Fox

Goodhew

Wilde

2016

Building and Environment

View full text Add to dashboard Cite

a b s t r a c tMany buildings suffer from defects in the building envelope, such as missing insulation, thermal bridging, cracks and moisture problems. Thermography is one technology that can help to identify such defects. However, there are different approaches towards assessing the building envelope. Pass-by thermography is an emerging method, which is used to capture single thermal images of external building elevations. Compared with traditional walk-through thermography, it is much quicker and cheaper to perform. Yet it is currently unclear how successful this methodology is at detecting building defects. This paper qualitatively compares pass-by thermography and walk-through thermography. A set of 122 residential dwellings in South West England was inspected using the both methodologies. Results show that substantially more defects were detected using walk-through thermography, with internal inspections yielding the greatest number of detected defects. Significant constraints with walk-past thermography were identified, such as unknown occupancy behaviour, transient climatic conditions, fixed viewing angles and spatial resolution limitations, which were all found to have a greater impact on image results than during walk-through thermography.Although trends in conductivity defects were found from target comparison analysis between similar dwellings, viewing single external elevations under walk-past thermography was found to miss many different defect types, which would have normally been discovered during traditional walk-through thermography.

show abstract

Section: Traditional Walk-through Thermographymentioning

confidence: 99%

Building defect detection: External versus internal thermography

Fox

Goodhew

Wilde

2016

Building and Environment

View full text Add to dashboard Cite

show abstract

“…Internal surfaces, where risk of mould growth and surface condensation occurs, are those which fall below a critical temperature factor (ƒCRsi) and are determined for a use class (Taylor et al, 2014).…”

Section: Critical Internal Surface Temperaturementioning

confidence: 99%

Modelling insulated coving's potential to reducing thermal bridging and moisture risk in solid wall dwellings retrofitted with external wall insulation

Glew

Brooke-Peat

Gorse

2017

Journal of Building Engineering

View full text Add to dashboard Cite

“…This is due to the more and more demanding standards in building design and analysis, that promote the combination of multiple simulation software and sensors. During the design stage, numerical simulations are deployed both for new constructions and for the retrofit of existing buildings, while thermographic scans could be applied as a boundary conditions or as reference to verify the accuracy of fluid dynamics models 22 . The acquisition of thermal images could be coupled also with laser scanning or photographs, that create a two or three-dimensional model of the building 23 .…”

Section: Introductionmentioning

confidence: 99%

Automatic thermographic scanning with the creation of 3D panoramic views of buildings

2016

View full text Add to dashboard Cite

Infrared thermography is widely applied to the inspection of building, enabling the identification of thermal anomalies due to the presence of hidden structures, air leakages, and moisture. One of the main advantages of this technique is the possibility to acquire rapidly a temperature map of a surface. However, due to the actual low-resolution of thermal camera and the necessity of scanning surfaces with different orientation, during a building survey it is necessary to take multiple images. In this work a device based on quantitative infrared thermography, called aIRview, has been applied during building surveys to automatically acquire thermograms with a camera mounted on a robotized pan tilt unit. The goal is to perform a first rapid survey of the building that could give useful information for the successive quantitative thermal investigations. For each data acquisition, the instrument covers a rotational field of view of 360° around the vertical axis and up to 180° around the horizontal one. The obtained images have been processed in order to create a full equirectangular projection of the ambient. For this reason the images have been integrated into a web visualization tool, working with web panorama viewers such as Google Street View, creating a webpage where it is possible to have a three dimensional virtual visit of the building. The thermographic data are embedded with the visual imaging and with other sensor data, facilitating the understanding of the physical phenomena underlying the temperature distribution.

show abstract

Combining thermography and computer simulation to identify and assess insulation defects in the construction of building façades

Cited by 48 publications

References 19 publications

Building defect detection: External versus internal thermography

Building defect detection: External versus internal thermography

Modelling insulated coving's potential to reducing thermal bridging and moisture risk in solid wall dwellings retrofitted with external wall insulation

Automatic thermographic scanning with the creation of 3D panoramic views of buildings

Contact Info

Product

Resources

About