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Journal of Chinese
Architecture and Urbanism Moisture damage in plastered heritage building

Annila, P. J., Lahdensivu, J., Suonketo, J., Pentti, M., & Vinha, J. Heritage Management and Sustainable Development, 12:513.
(2018). Need to repair moisture- and mould damage in https://doi.org/10.1108/JCHMSD-01-2020-0002
different structures in finnish public buildings. Journal of
Building Engineering, 16:72. Farhan, S.L., & Nasar, Z.A. (2020). Urban identity in the holy
cities of Iraq: Analysis of architectural design trends in the
https://doi.org/10.1016/j.jobe.2017.12.010
city of Karbala. Journal of Urban Regeneration and Renewal,
Austigard, M. S., & Mattsson, J. (2019). Monitoring climate 14:210-222.
change related biodeterioration of protected historic
buildings. International Journal of Building Pathology and https://doi.org/10.69554/ILBJ1476
Adaptation, 38:529. Fontenele, A., Campos, V., & Mesquita, E. (2022). Damage to
Historic Facades: A Case Study in the Historic Center of
https://doi.org/10.1108/ijbpa-11-2018-0094
Viçosa do Ceará. In: XVIII International Conference on
Brambilla, A., & Gasparri, E. (2021). Mould growth models and Building Pathology and Constructions Repair.
risk assessment for emerging timber envelopes in Australia:
A comparative study. Buildings, 11:261. Gao, L., Liu, T., Cao, T., Hwang, Y., & Radermacher, R. (2021).
Comparing deep learning models for multi energy vectors
https://doi.org/10.3390/buildings11060261 prediction on multiple types of building. Applied Energy,
Buda, A., de Place Hansen, E. J., Rieser, A., Giancola, E., Pracchi, V. N., 301:117486.
Mauri, S., et al. (2021). Conservation-compatible retrofit https://doi.org/10.1016/j.apenergy.2021.117486
solutions in historic buildings: An integrated approach.
Sustainability, 13:2927. Geng, S., Chau, H. W., Jamei, E., Vrcelj, Z. (2023). Unpacking
shifts of spatial attributes and typologies of urban identity
https://doi.org/10.3390/su13052927 in heritage assessment post COVID-19 using Chinatown,
Chen, S., Chen, J., Yu, J., Wang, T., & Xu, J. J. B. (2023). Prediction Melbourne, as a case study. Architecture, 3:753.
of deterioration level of heritage buildings using a logistic https://doi.org/10.3390/architecture3040041
regression model. Buildings, 13:1006.
Gunasdi, Y., Aksakal, O., & Kemaloglu, L. (2023). Biodeterioration
https://doi.org/10.3390/buildings13041006 of some historical monuments in Erzurum by vascular
Ciuffreda, A. L., Trovatelli, F., Meli, F., Caselli, G., Stramaccioni, C., plants. International Biodeterioration and Biodegradation,
Coli, M., et al. (2024). Historic building information 176:105530.
modeling for conservation and maintenance: San Niccolo’s https://doi.org/10.1016/j.ibiod.2022.105530
tower gate, Florence. Heritage, 7:1334.
Ioannidis, A. I., Mikropoulos, P. N., Tsovilis, T. E., & Kokkinos, N. D.
https://doi.org/10.3390/heritage7030064 (2022). Lightning Protection of Historical Buildings and
Cozzolino, A., Adamo, P., Bonanomi, G., & Motti, R. (2022). Cultural Heritage Monuments: A Literature Review. In:
th
The role of lichens, mosses, and vascular plants in the 2022 36 International Conference on Lightning Protection
biodeterioration of historic buildings: A review. Plants (ICLP). p479.
(Basel), 11:3429. https://doi.org/10.1109/ICLP56858.2022.9942479
https://doi.org/10.3390/plants11243429
Junier, P., & Joseph, E. (2017). Microbial biotechnology
Dang, X., Vereecken, E., Janssen, H., & Roels, S. (2024). Impact approaches to mitigating the deterioration of construction
of semi-empirical methods implemented in heat, air, and and heritage materials. Microbial Biotechnology, 10:1145.
moisture (HAM) models on predicted wind-driven rain https://doi.org/10.1111/1751-7915.12795
(WDR) loads and hygrothermal responses. Building and
Environment, 262:111770. Karakale, V., Layas, F. M., & Suleiman, R. E. (2023). Assessment
and rehabilitation of damaged buildings in historic Benghazi
https://doi.org/10.1016/j.buildenv.2024.111770
City. Journal of Building Material Science, 5:51.
Fadeev, A.V., & Nasybullina, R.A. (2020). Research of documents https://doi.org/10.30564/jbms.v5i2.6098
on the architectural heritage protection in terms of the
preservation of the Samara historical urban nucleus. IOP Kim, G. E., & Lee, J. R. (2020). The impact of historic
Conference Series: Materials Science and Engineering, building preservation in urban economics: Focusing on
775:12015. accommodation prices in Jeonju Hanok village, South Korea.
Sustainability, 12:5005.
https://doi.org/10.1088/1757-899x/775/1/012015
https://doi.org/10.3390/su12125005
Farhan, S. L., Akef, V. S., & Nasar, Z. (2022). Revitalizing the
historical center of Al-Najaf city in Iraq: learning from Kim, S. H., & Chung, Y. J. (2022). Analysis of factors affecting
the British conservation experiences. Journal of Cultural termite damage to wooden architectural heritage buildings

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