期刊
HERITAGE
卷 5, 期 4, 页码 3211-3219出版社
MDPI
DOI: 10.3390/heritage5040165
关键词
building material; long-term monitoring; stone deterioration; wood decay; microclimate sensor; surface temperature; surface moisture; climate change; risk assessment
资金
- European Union
- [821054]
An innovative experimental method has been developed for long-term monitoring of outdoor microclimate and material decay at cultural heritage sites, aiding in the formulation of new damage functions and models for climate-change risk assessment.
An innovative experimental method for the long-term monitoring of outdoor microclimate and material decay at cultural heritage sites was developed to aid the formulation of new damage functions and models for climate-change risk assessment. To that end, an apparatus for field exposure tests was designed to monitor a variety of historical building materials in different environmental settings. The data series acquired, i.e., surface temperature and moisture, are compared with the corresponding meteorological datasets on a local and regional scale. The apparatus is designed for supporting also the monitoring of the physical and chemical changes caused by weathering. This novel method is expected to provide insights into the interaction between historical materials and the environment, which can be exploited for the protection and conservation of cultural heritage.
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