Investigating the presence of mold in wood treated with chlorophenol

Ekberg, Olle; Lorentzen, Johnny C.; Harderup, Lars Erik

Investigating the presence of mold in wood treated with chlorophenol

Mark

Ekberg, Olle ^LU ; Lorentzen, Johnny C. and Harderup, Lars Erik ^LU (2020) 12th Nordic Symposium on Building Physics, NSB 2020 In E3S Web of Conferences 172.

Abstract: A common moisture-related problem in Sweden and other countries, is mold odor indoors. The general perception is that mold odor indicates hazardous hidden mold. However, some grey literature studies indicate that the source of mold odor might not be substantial amounts of mold, but rather chloroanisoles (CAs) which are biomethylated from chlorophenols (CPs) in moist conditions. Products containing CPs were commonly used world-wide as wood preservatives in the 1960-70s and problems with indoor mold odor have been reported in buildings where such products have been used. In Sweden, one of the main uses of CPs in buildings was in wooden constructions exposed to big moisture loads, such as sill plates and crawl space ceilings. Here we aimed... (More); A common moisture-related problem in Sweden and other countries, is mold odor indoors. The general perception is that mold odor indicates hazardous hidden mold. However, some grey literature studies indicate that the source of mold odor might not be substantial amounts of mold, but rather chloroanisoles (CAs) which are biomethylated from chlorophenols (CPs) in moist conditions. Products containing CPs were commonly used world-wide as wood preservatives in the 1960-70s and problems with indoor mold odor have been reported in buildings where such products have been used. In Sweden, one of the main uses of CPs in buildings was in wooden constructions exposed to big moisture loads, such as sill plates and crawl space ceilings. Here we aimed to determine the potential presence and level of mold growth on wood treated with CPs in one school building with reported odor problems built in the stated time period. Odorous wooden samples were taken and analyzed for mold growth. No mold was detected by the naked eye, but some growth was seen using a microscope. We presently investigate more schools and samples, but so far our results question that mold odor depends on substantial amounts of mold.
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Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/98a24bdb-591d-4148-9448-b1942de11987

author

Ekberg, Olle ^LU ; Lorentzen, Johnny C. and Harderup, Lars Erik ^LU

organization

Division of Building Physics

publishing date

2020-06-30

type

Chapter in Book/Report/Conference proceeding

publication status

published

subject

Environmental Analysis and Construction Information Technology

host publication

12th Nordic Symposium on Building Physics (NSB 2020)

series title

E3S Web of Conferences

volume

172

article number

10006

conference name

12th Nordic Symposium on Building Physics, NSB 2020

conference location

Tallinn, Estonia

conference dates

2020-09-06 - 2020-09-09

external identifiers

scopus:85088448075

ISSN

2555-0403

DOI

10.1051/e3sconf/202017210006

language

English

LU publication?

yes

id

98a24bdb-591d-4148-9448-b1942de11987

date added to LUP

2020-08-05 08:21:06

date last changed

2024-01-02 15:47:33

@inproceedings{98a24bdb-591d-4148-9448-b1942de11987,
  abstract     = {{<p>A common moisture-related problem in Sweden and other countries, is mold odor indoors. The general perception is that mold odor indicates hazardous hidden mold. However, some grey literature studies indicate that the source of mold odor might not be substantial amounts of mold, but rather chloroanisoles (CAs) which are biomethylated from chlorophenols (CPs) in moist conditions. Products containing CPs were commonly used world-wide as wood preservatives in the 1960-70s and problems with indoor mold odor have been reported in buildings where such products have been used. In Sweden, one of the main uses of CPs in buildings was in wooden constructions exposed to big moisture loads, such as sill plates and crawl space ceilings. Here we aimed to determine the potential presence and level of mold growth on wood treated with CPs in one school building with reported odor problems built in the stated time period. Odorous wooden samples were taken and analyzed for mold growth. No mold was detected by the naked eye, but some growth was seen using a microscope. We presently investigate more schools and samples, but so far our results question that mold odor depends on substantial amounts of mold.</p>}},
  author       = {{Ekberg, Olle and Lorentzen, Johnny C. and Harderup, Lars Erik}},
  booktitle    = {{12th Nordic Symposium on Building Physics (NSB 2020)}},
  issn         = {{2555-0403}},
  language     = {{eng}},
  month        = {{06}},
  series       = {{E3S Web of Conferences}},
  title        = {{Investigating the presence of mold in wood treated with chlorophenol}},
  url          = {{http://dx.doi.org/10.1051/e3sconf/202017210006}},
  doi          = {{10.1051/e3sconf/202017210006}},
  volume       = {{172}},
  year         = {{2020}},
}

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Investigating the presence of mold in wood treated with chlorophenol