Supplementary data for: "Hygrothermal assessment of internally insulated historic solid masonry walls with focus on the thermal bridge due to internal partition walls"

Supplementary data for: N.F. Jensen, C. Rode, E.B. Møller, 2021, "Hygrothermal assessment of internally insulated historic solid masonry walls with focus on the thermal bridge due to internal partition walls"This study investigated the hygrothermal performance of five thermal insulation systems for internal retrofitting purposes. Focus was on the hygrothermal performance near partition brick walls compared to the middle of the wall. The setup consisted of two 40-feet (12.2 m) insulated reefer containers with controlled indoor climate, reconfigured with several holes (1x2 m each) containing solid masonry walls with embedded wooden elements on the interior side, an internal brick partition wall and different internal insulation systems, with and without exterior hydrophobisation. Relative humidity and temperature were measured over five years in the masonry/insulation interface and near the interior surface, in the centre of the test field and near the internal partition wall. In addition, calibrated numerical simulations were performed for further investigation of the thermal bridge effect. The datasets comprises:1) Measurements from the experimental setup (hourly and 96-hour average values)2) Visual representations of the measurements from the experimental setup 3) VTT mould growth modelling (calculation files and results)4) Calibrated Delphin simulation models (including Output JPG files)

补充数据集：N.F. Jensen, C. Rode, E.B. Møller, 2021, 《内部保温历史性实心砖墙的湿热性能评估：以内部隔断墙引起的热桥效应为焦点》本研究针对五种内部改造用保温系统进行了湿热性能的探究。研究重点在于对比隔断砖墙附近与墙体中部的湿热性能。实验装置由两个40英尺（12.2米）的保温冷藏集装箱构成，内部气候得到控制，并通过在集装箱上设置数个孔洞（每个孔洞尺寸为1x2米）来嵌入实心砖墙，墙体内侧包含木质元素，并设置内部砖墙以及不同的内部保温系统，包括有无外表面疏水处理。在五年内，对砖墙/保温层界面以及内部表面附近、测试区域中心及内部隔断墙附近进行了相对湿度和温度的测量。此外，还进行了校准后的数值模拟，以进一步研究热桥效应。数据集包括：1) 实验装置的测量数据（每小时及96小时平均值）；2) 实验装置测量数据的可视化表示；3) VTT霉变生长模型（计算文件及结果）；4) 校准后的Delphin模拟模型（包括输出JPG文件）。