Temperature dependent emission of formic and acetic acid from paper, and its consequences for the air quality in archives

Publikation: Konferencebidrag › Poster › Forskning

Standard

Temperature dependent emission of formic and acetic acid from paper, and its consequences for the air quality in archives. / Smedemark, Signe Hjerrild; Ryhl-Svendsen, Morten; Hansen, Birgit Vinther; Nielsen, Ingelise.

2014.

Publikation: Konferencebidrag › Poster › Forskning

Harvard

Smedemark, SH, Ryhl-Svendsen, M, Hansen, BV & Nielsen, I 2014, 'Temperature dependent emission of formic and acetic acid from paper, and its consequences for the air quality in archives'.

APA

Smedemark, S. H., Ryhl-Svendsen, M., Hansen, B. V., & Nielsen, I. (2014). Temperature dependent emission of formic and acetic acid from paper, and its consequences for the air quality in archives.

Vancouver

Smedemark SH, Ryhl-Svendsen M, Hansen BV, Nielsen I. Temperature dependent emission of formic and acetic acid from paper, and its consequences for the air quality in archives. 2014.

Author

Smedemark, Signe Hjerrild ; Ryhl-Svendsen, Morten ; Hansen, Birgit Vinther ; Nielsen, Ingelise. / Temperature dependent emission of formic and acetic acid from paper, and its consequences for the air quality in archives.

Bibtex

@conference{21b21d265bbc4565b69be2355e7c3d0c,

title = "Temperature dependent emission of formic and acetic acid from paper, and its consequences for the air quality in archives",

abstract = "Paper records affect the indoor environment in archives, because the paper may give off acid compounds to the air. These emission products origins from the decay of cellulose and lignin in the paper. As the off-gassing origins from chemical processes within the material (e.g., acid hydrolysis) the reaction rate is therefore, among other things, depending on temperature. Some of the emission products from paper, e.g., acetic and formic acid, are problematic from a conservation point of view, because they will re-react with the paper and other archival materials and cause further deterioration. The problem is amplified by an often very large loading (mass of material vs. volume) of paper in archival rooms. Furthermore, many archives have only little ventilation, so the exchange of polluted air with ambient air is low. The general trend; higher temperature accelerates material{\textquoteright}s emission, and a high loading increases the level of internally generated pollutants in a confined room, is well recognized. However, the decisive factors are only sparingly quantified, and in the poster we will place these in a conservation context.",

author = "Smedemark, {Signe Hjerrild} and Morten Ryhl-Svendsen and Hansen, {Birgit Vinther} and Ingelise Nielsen",

year = "2014",

month = apr,

day = "13",

language = "English",

}

RIS

TY - CONF

T1 - Temperature dependent emission of formic and acetic acid from paper, and its consequences for the air quality in archives

AU - Smedemark, Signe Hjerrild

AU - Ryhl-Svendsen, Morten

AU - Hansen, Birgit Vinther

AU - Nielsen, Ingelise

PY - 2014/4/13

Y1 - 2014/4/13

N2 - Paper records affect the indoor environment in archives, because the paper may give off acid compounds to the air. These emission products origins from the decay of cellulose and lignin in the paper. As the off-gassing origins from chemical processes within the material (e.g., acid hydrolysis) the reaction rate is therefore, among other things, depending on temperature. Some of the emission products from paper, e.g., acetic and formic acid, are problematic from a conservation point of view, because they will re-react with the paper and other archival materials and cause further deterioration. The problem is amplified by an often very large loading (mass of material vs. volume) of paper in archival rooms. Furthermore, many archives have only little ventilation, so the exchange of polluted air with ambient air is low. The general trend; higher temperature accelerates material’s emission, and a high loading increases the level of internally generated pollutants in a confined room, is well recognized. However, the decisive factors are only sparingly quantified, and in the poster we will place these in a conservation context.

AB - Paper records affect the indoor environment in archives, because the paper may give off acid compounds to the air. These emission products origins from the decay of cellulose and lignin in the paper. As the off-gassing origins from chemical processes within the material (e.g., acid hydrolysis) the reaction rate is therefore, among other things, depending on temperature. Some of the emission products from paper, e.g., acetic and formic acid, are problematic from a conservation point of view, because they will re-react with the paper and other archival materials and cause further deterioration. The problem is amplified by an often very large loading (mass of material vs. volume) of paper in archival rooms. Furthermore, many archives have only little ventilation, so the exchange of polluted air with ambient air is low. The general trend; higher temperature accelerates material’s emission, and a high loading increases the level of internally generated pollutants in a confined room, is well recognized. However, the decisive factors are only sparingly quantified, and in the poster we will place these in a conservation context.

UR - https://adk.elsevierpure.com/en/publications/051abed1-d5be-463a-9ffa-da5de81a62a9

M3 - Poster

ER -

ID: 334853889