Test Method To Quantify The Wicking Properties Of Porous Insulation Materials Designed To Prevent Interstitial Condensation

Binder, Andrea; Zirkelbach, Daniel; Künzel, Hartwig M.

doi:10.1063/1.3453818

Cited by 12 publications

(17 citation statements)

References 1 publication

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Assessing the share between the flows in these experiments is based on assumptions as both have the same direction and are subjected to rather extreme conditions (water contact and full saturation). To gain more information on this, Binder et al (2010Binder et al ( , 2013Binder et al ( , 2014 proposed a capillary condensation redistribution (CCR) test, where vapour and liquid flows are in opposite directions. In this test, a temperature difference causes a condensation plane inside a material sample while mass change and moisture profile are monitored.…”

Section: Introductionmentioning

confidence: 99%

Hygrothermal performance of a brick wall with interior insulation in cold climate: Vapour open versus vapour tight approach

Klõšeiko

Kalamees

2021

Journal of Building Physics

View full text Add to dashboard Cite

Interior insulation of historic buildings is well-studied in Central Europe; however, their conclusions might not be directly applicable to colder climates. Heat, air and moisture (HAM) modelling can be a valuable tool for studying those solutions in different conditions. Recently, incorporating the capillary condensation redistribution (CCR) test into the material characterization process has shown to cause dramatic improvement in correlating hygrothermal modelling results to measurements in certain situations. It is also noteworthy, that the HAM modelling errors made using material data from conventional characterization process can be severely non-conservative. In this article a parametric study of a 51 cm thick mass masonry wall is undertaken to determine the effect of the improved material properties on the reliability of a vapour open ‘capillary active’ autoclaved aerated concrete (AAC) and calcium silicate (CaSi) interior insulation solutions and to compare them to a vapour tight insulation system. A 49-year real weather dataset from Estonia is used. The results show that compared to conventionally characterized material properties the CCR-optimized material data causes more critical conditions directly behind the interior insulation, while having a similar performance in the exterior part of the masonry. The differences occur close to the performance limits and highlight the importance of using the CCR test in material characterization process. The vapour tight and vapour open systems showed a very similar impact on the freeze-thaw cycles and on the maximum ice saturation of the exterior part of the masonry. The vapour open solutions perform better than the vapour tight PIR in terms of frost damage and possible mould growth behind the insulation – even though the advantage has been reduced when using the CCR-optimized material data. Regardless of the insulation solution, a case-specific approach is still required to avoid damaging the original wall and/or the added insulation system.

show abstract

Section: Introductionmentioning

confidence: 99%

Hygrothermal performance of a brick wall with interior insulation in cold climate: Vapour open versus vapour tight approach

Klõšeiko

Kalamees

2021

Journal of Building Physics

View full text Add to dashboard Cite

show abstract

“…To be fair, establishing moisture content limits is also a challenge for more sophisticated methods such as hygrothermal simulation models. The main problem with calculating potential amounts of localised condensation is that many modern building materials do not really experience condensation because water vapour is absorbed and redistributed within the pore structure, as, for example, in capillary active insulation materials [24] such as mineralbased insulation panels or masonry blocks and rendering systems with high thermal resistance. Establishing a limit for condensation that happens only on paper respectively in the calculation tool makes little sense.…”

Section: En Iso 13788 -Dewpoint Calculation Standardmentioning

confidence: 99%

Moisture control design has to respond to all relevant hygrothermal loads

Künzel

Dewsbury

2022

UCL Open Environ

View full text Add to dashboard Cite

Moisture-related damage is still a formidable cost factor in the building sector. Besides installation deficiencies, moisture control design failures are the most frequent reasons for moisture problems. Therefore, adequate moisture control analysis has become the key for sustainable buildings. However, by only focusing on vapour diffusion other important moisture loads such as driving rain, construction moisture or air infiltration are mostly neglected. Therefore, international moisture control standards often refer to simulation models for more realistic analysis, leaving many practitioners wondering how to handle these tools. To overcome this dilemma, the updated German moisture control standard has introduced a three-pathway approach for design evaluation: first, deemed to satisfy list, second, restricted Glaser calculation and third, fully fledged hygrothermal simulation. The third pathway includes the option to account for small leaks or imperfections in building envelope components. Guidelines in other countries are also embracing similar moisture control approaches which gives hope for more durable and sustainable building design. To reach this aim, moisture control should also become an integral part of the design process instead of a secondary chore.

show abstract

“…To be fair, establishing moisture content limits is also a challenge for more sophisticated methods such as hygrothermal simulation models. The main problem with calculating potential amounts of localized condensation is, that many modern building materials don't really experience condensation because water vapour is absorbed and redistributed within the pore structure, as for example in capillary active insulation materials [24] such as mineral foam insulation or masonry blocks and rendering systems with high thermal resistance. Establishing a limit for condensation that happens only on paper respectively in the calculation tool makes little sense.…”

Section: En Iso 13788 -Dewpoint Calculation Standardmentioning

confidence: 99%

Moisture control design has to respond to all relevant hygrothermal loads

Künzel

Dewsbury

2021

Preprint

View full text Add to dashboard Cite

Moisture related damage is still a formidable cost factor in the building sector. Besides installation deficiencies, moisture control design failures are the most frequent reasons for moisture problems. Therefore, adequate moisture control analysis has become the key for sustainable buildings. However, by focusing on vapour diffusion only other important moisture loads such as driving rain, construction moisture or air infiltration are mostly neglected. Therefore, international moisture control standards often refer to simulation models for more realistic analysis, leaving many practitioners wondering how to handle these tools. To overcome this dilemma, the updated German moisture control standard has introduced a three-pathway approach for design evaluation: 1 st deemed to satisfy list, 2 nd restricted Glaser calculation and 3 rd fully fledged hygrothermal simulation. The third pathway includes the option to account for small leaks or imperfections in building envelope components. Guidelines in other countries are also embracing similar moisture control approaches which gives hope for more durable and sustainable building design. To reach this aim, moisture control should also become an integral part of the design process instead of a secondary chore.

show abstract

Test Method To Quantify The Wicking Properties Of Porous Insulation Materials Designed To Prevent Interstitial Condensation

Cited by 12 publications

References 1 publication

Hygrothermal performance of a brick wall with interior insulation in cold climate: Vapour open versus vapour tight approach

Hygrothermal performance of a brick wall with interior insulation in cold climate: Vapour open versus vapour tight approach

Moisture control design has to respond to all relevant hygrothermal loads

Moisture control design has to respond to all relevant hygrothermal loads

Contact Info

Product

Resources

About