10.11583/DTU.12458207.v1 Nickolaj Feldt Jensen Nickolaj Feldt Jensen Søren Peter Bjarløv Søren Peter Bjarløv Carsten Rode Carsten Rode Birgitte Andersen Birgitte Andersen Eva B. Møller Eva B. Møller Supplementary data for "Hygrothermal performance of six insulation systems for internal retrofitting solid masonry walls" Technical University of Denmark 2020 internal insulation solid masonry field study hydrophobisation mould modelling on-site mould observations Phenolic foam insulation Lime-cork Insulating plaster embedded wooden elements diffusion-open capillary active diffusion-tight Building Science and Techniques 2020-06-22 11:48:51 Dataset https://data.dtu.dk/articles/dataset/Supplementary_data_for_Hygrothermal_performance_of_six_insulation_systems_for_internal_retrofitting_solid_masonry_walls_/12458207 <div>Supplementary data for: N.F. Jensen,<sup> </sup>S.P. Bjarløv, C. Rode, B. Andersen, E.B. Møller, 2020, "Hygrothermal performance of a phenolic foam insulation system with a closed cell structure and a lime-cork insulating plaster for internal retrofitting solid masonry walls"</div><div>The article is in review for Journal of Building Physics<div>The authors are awaiting link/DOI for the article.<br></div></div><div><br></div><div>The datasets comprises: </div><div><div>1) Measured temperature and relative humidity (Hourly data and 96-hour running average).</div><div>2) Mathematical mould-growth predictions with the VTT model.</div><div>3) On-site fungal tests with the Mycometer method.</div><div>4) On-site pH tests</div><div>5) Photos for installation of the Phenolic foam and lime-cork insulating plaster systems.</div></div>