Abstract
Climate change is anticipated to affect the degradation of the building materials in cultural heritage sites and buildings. For the aim of taking the necessary preventive measures, studies need to be carried out with the utmost possible precision regarding the building materials of each monument and the microclimate to which they are exposed. Within the present study, a methodology to investigate the mold risk of timber buildings is presented and applied in two historic constructions. The two case studies are located in Vestfold, Norway. Proper material properties are selected for the building elements by leveraging material properties from existing databases, measurements, and simulations of the hygrothermal performance of selected building components. Data from the REMO2015 driven by the global model MPI-ESM-LR are used in order to account for past, present, and future climate conditions. In addition, climate data from ERA5 reanalysis are used in order to assess the accuracy the MPI-ES-LR_REMO2015 model results. Whole building hygrothermal simulations are employed to calculate the temperature and the relative humidity on the timber surfaces. The transient hygrothermal condition and certain characteristics of the timber surfaces are used as inputs in the updated VTT mold model in order to predict the mold risk of certain building elements. Results show a significant increase of the mold risk of the untreated timber surfaces due to climate change. The treated surfaces have no mold risk at all. It is also observed that the most significant increase of the mold risk occurs in the north-oriented and the horizontal surfaces. It is underlined that the mold risk of the timber elements is overestimated by the MPI-ES-LR_REMO2015 model compared to ERA5 reanalysis. The importance of considering the surface temperature and humidity, and not the atmospheric temperature and humidity as boundary conditions in the mold growth model is also investigated and highlighted.
Highlights
Historic constructions constitute an integral part of the human cultural heritage and they play a significant role to the economies of the areas where they are located
Using measurements from the sensors, material properties from existing databases, and a one-dimensional hygrothermal simulation tool in order to select appropriate material properties for the components of the two buildings; Synthesis of climate files that will be used in order to assess the climate change impact on the hygric and thermal performance of the building components; Employment of whole building hygrothermal simulations in order to define the temperature and relative humidity on the surface of the building components under the considered climate excitations; Use of a mold growth model that accounts for the transient hygrothermal conditions of the building elements in order to assess their mold risk
The focus of the current research is on investigating the impact of climate change on the mold risk of two historic timber buildings located in the county of Vestfold, Norway
Summary
Historic constructions constitute an integral part of the human cultural heritage and they play a significant role to the economies of the areas where they are located. Recent research underlines that an additional burden that the historic constructions have to deal with is climate change [1,2,3,4,5,6,7]. The impact of climate change on the tangible cultural heritage have been investigated in several projects, with the most known ones being the Noah’s Ark [1] and the Climate for Culture [3]. Within the Noah’s Ark project, data from climate models have been used as inputs in damage functions in order to examine the climate change impact on the deterioration of the building materials in cultural heritage sites. In the project Climate for Culture, the methodology that was followed included some additional steps in order to examine the impact of climate change on artifacts that are located in interior environments
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