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Long-term monitoring of a historic building to evaluate wall moisture content changes due to capillary rise

Long-term monitoring of a historic building to evaluate wall moisture content changes due to capillary rise
Long-term monitoring of a historic building to evaluate wall moisture content changes due to capillary rise
When impermeable ground bearing slabs are installed in buildings without a damp-proof course, it is believed that ground moisture will be ‘driven’ up adjacent walls by capillary action, however there is limited evidence to test this hypothesis. An experiment was used to determine if the installation of a vapour-sealed ground floor in a historic building would increase moisture content levels in an adjacent rubble-fill wall. This was achieved by undertaking long-term measurements of wall, soil and atmospheric moisture content over a three-year period. Measurements taken using timber dowels showed that the moisture content within the wall did not vary in response to wall evaporation rates and it did not increase following the installation of a vapour-proof barrier above the floor. This indicates that the moisture levels in the rubble-fill wall were not driven by capillary rise.
Briggs, Kevin
8974f7ce-2757-4481-9dbc-07510b416de4
Ball, Richard
011fd812-8d30-4a10-9b86-744add3d06d4
McCaig, Iain
17ba1013-0ce5-4b5c-9779-ce77931984d5
Briggs, Kevin
8974f7ce-2757-4481-9dbc-07510b416de4
Ball, Richard
011fd812-8d30-4a10-9b86-744add3d06d4
McCaig, Iain
17ba1013-0ce5-4b5c-9779-ce77931984d5

Briggs, Kevin, Ball, Richard and McCaig, Iain (2021) Long-term monitoring of a historic building to evaluate wall moisture content changes due to capillary rise. 1st International Conference on Moisture in Buildings (ICMB21), , London, United Kingdom. 28 - 29 Jun 2021.

Record type: Conference or Workshop Item (Paper)

Abstract

When impermeable ground bearing slabs are installed in buildings without a damp-proof course, it is believed that ground moisture will be ‘driven’ up adjacent walls by capillary action, however there is limited evidence to test this hypothesis. An experiment was used to determine if the installation of a vapour-sealed ground floor in a historic building would increase moisture content levels in an adjacent rubble-fill wall. This was achieved by undertaking long-term measurements of wall, soil and atmospheric moisture content over a three-year period. Measurements taken using timber dowels showed that the moisture content within the wall did not vary in response to wall evaporation rates and it did not increase following the installation of a vapour-proof barrier above the floor. This indicates that the moisture levels in the rubble-fill wall were not driven by capillary rise.

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More information

Published date: 28 June 2021
Venue - Dates: 1st International Conference on Moisture in Buildings (ICMB21), , London, United Kingdom, 2021-06-28 - 2021-06-29

Identifiers

Local EPrints ID: 492667
URI: http://eprints.soton.ac.uk/id/eprint/492667
PURE UUID: d042a000-9bd9-4274-9874-18ba7d4cddf8
ORCID for Kevin Briggs: ORCID iD orcid.org/0000-0003-1738-9692

Catalogue record

Date deposited: 09 Aug 2024 16:50
Last modified: 10 Aug 2024 01:42

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Contributors

Author: Kevin Briggs ORCID iD
Author: Richard Ball
Author: Iain McCaig

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