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Alev, Üllar and Kalamees, Targo and Eskola, Lari and Arumägi, Endrik and Jokisalo, Juha and Donarelli, Anna and Siren, Kai and Broström, Tor (2015) Indoor hygrothermal condition and user satisfaction in naturally ventilated historic houses in temperate humid continental climate around the Baltic Sea. Architectural Science Review, 59 (1).
Arfvidsson, J. and Bjelke-Holtermann, B. and Mattsson, J. (2017) Status determination of a historical building including measures for three different scenarios. Energy Procedia, 132.
Arfvidsson, J. and Bjelke-Holtermann, B. and Mattsson, J. (2015) Status determination of historical buildings: an example. In: 1st International Symposium on Building Pathology, Porto.
Arfvidsson, J. and Bjelke-Holtermann, B. and Mattsson, J. (2014) A method for status determination of historical buildings. In: NSB 2014 10th Nordic Symposium on Building Physics, 15-19 June 2014, Lund, Sweden.
Child, R E (2007) Insect Damage as a Function of Climate. In: Museum Microclimates. National Museum of Denmark. ISBN 978-87-7602-080-4
Child, R E (2005) Biological agents of deterioration. In: The National Trust Manual of Housekeeping. National Trust, pp. 80-91. ISBN 0750655291
Child, R E (1999) Insect Pests in Archives: detection, monitoring and control. Journal of the Society of Archivists, 20 (2). pp. 141-148. ISSN 00379816
Child, Robert (2013) The influence of the museum environment in controlling insect pests. Climate for Collections - Standards and Uncertainties. Postprints of the Munich Climate Conference 7 to 9 November 2012. pp. 419-424.
Cho, Hyun Mi and Yang, Sungwoong and Wi, Seunghwan and Chang, Seong Jin and Kim, Sumin (2020) Hygrothermal and energy retrofit planning of masonry façade historic building used as museum and office: A cultural properties case study. Energy, 201. ISSN 0360-5442
Dornieden, T and Gorbushina, A A and Krumbein, W E (2000) Biodecay of cultural heritage as a space/time-related ecological situation — an evaluation of a series of studies. International Biodeterioration & Biodegradation, 46 (4). pp. 261-270. ISSN 09648305
Hobart Dicus, Diana (2000) One Response to a Collection-Wide Mold Outbreak: How Bad Can It Be: How Good Can It Get? Journal of the American Institute for Conservation, 39 (1). pp. 85-105. ISSN 01971360
Holden, P (2007) Monitoring the book collection at Lanhydrock House. Journal of the Society of Archivists, 28 (1). pp. 67-75. ISSN 00379816
Krus, M and Kilian, R and Sedlbauer, K (2007) Mould growth prediction by computational simulation on historic buildings. In: Museum Microclimates. National Museum of Denmark. ISBN 978-87-7602-080-4
Lourenço, P B and Luso, E and Almeida, M G (2006) Defects and moisture problems in buildings from historical city centres: a case study in Portugal. Building and Environment, 41 (2). pp. 223-234. ISSN 03601323
Nittérus, M (2000) Fungi in Archives and Libraries. Restaurator, 21 (1). pp. 25-40. ISSN 00345806
Pelsmakers, Sofie and Vereecken, Evy and Airaksinen, Miimu and Elwell, Cliff C.A. (2019) Void conditions and potential for mould growth in insulated and uninsulated suspended timber ground floors. International Journal of Building Pathology and Adaptation, 37 (4). ISSN 2398-4708
Scott, G (1994) Moisture, ventilation and mould growth. Preventive conservation: practice, theory and research. Preprints of the contributions to the Ottawa Congress, 12-16 September 1994 . pp. 149-153.
Sedlbauer , K (2002) Prediction of Mould Growth by Hygrothermal Calculation. Journal of Building Physics, 25 (4). 321-336 . ISSN 17442591
Wessberg, Magnus (2019) Indoor climate analysis and model based control of massive construction historic buildings. Doctoral thesis, Czech Technical University in Prague.