TY - JOUR
T1 - A proposed method to assess the damage risk of future climate change to museum objects in historic buildings
AU - Huijbregts, Z.
AU - Kramer, R.P.
AU - Martens, M.H.J.
AU - Schijndel, van, A.W.M.
AU - Schellen, H.L.
PY - 2012
Y1 - 2012
N2 - Future climate change is expected to have a critical effect on valuable museum collections that are housed in historic buildings. Changes of the indoor environment in the building affect the microclimate around the museum objects and may cause damage to the collection. In this study, a method is proposed to assess the damage risk of future climate change to museum objects in historic buildings. The method is applied for two historic museum buildings in The Netherlands and Belgium. The impact of climate change on the indoor environment of the buildings is analysed by combining weather data from a future outdoor climate scenario with an indoor climate simulation model. Two museum rooms in each building, containing a collection of historic paintings and wooden furniture, are modelled. The predicted indoor environment from 1950 until 2099 in the four museum rooms are assessed based on the ASHRAE guidelines for indoor conditions related to museum collections. In addition, the potential damage risk of climate change to two typical museum objects is investigated. For the examined case studies, it is found that the expected climate change considerably increases both indoor temperature and relative humidity. Of these two factors, the rising relative humidity has the highest impact on the damage potential for museum objects. Based on the results of the proposed method, it is expected that future climate change in historic buildings may in some cases increase mould growth, but will not have a significant impact on mechanical degradation of objects.
AB - Future climate change is expected to have a critical effect on valuable museum collections that are housed in historic buildings. Changes of the indoor environment in the building affect the microclimate around the museum objects and may cause damage to the collection. In this study, a method is proposed to assess the damage risk of future climate change to museum objects in historic buildings. The method is applied for two historic museum buildings in The Netherlands and Belgium. The impact of climate change on the indoor environment of the buildings is analysed by combining weather data from a future outdoor climate scenario with an indoor climate simulation model. Two museum rooms in each building, containing a collection of historic paintings and wooden furniture, are modelled. The predicted indoor environment from 1950 until 2099 in the four museum rooms are assessed based on the ASHRAE guidelines for indoor conditions related to museum collections. In addition, the potential damage risk of climate change to two typical museum objects is investigated. For the examined case studies, it is found that the expected climate change considerably increases both indoor temperature and relative humidity. Of these two factors, the rising relative humidity has the highest impact on the damage potential for museum objects. Based on the results of the proposed method, it is expected that future climate change in historic buildings may in some cases increase mould growth, but will not have a significant impact on mechanical degradation of objects.
U2 - 10.1016/j.buildenv.2012.01.008
DO - 10.1016/j.buildenv.2012.01.008
M3 - Article
SN - 0360-1323
VL - 55
SP - 43
EP - 56
JO - Building and Environment
JF - Building and Environment
IS - sept
ER -