Simulation Dataset on Fire in the Cavity of Naturally Ventilated Double Skin Façade with Venetian Blinds

This dataset contains thermocouple temperature data in °C obtained from Fire Dynamic Simulation (FDS) of a 5MW HRR polyurethane GM27 fire in a multi-storey Double Skin Façade (DSF) building with Venetian blinds. The Excel spreadsheet has temperature data obtained from thermocouples installed on the glazing surfaces in the DSF cavity for floors 2, 3 and 4 (see Physical Model and Thermocouple Map). The data is presented for the scenarios where there is no Venetian blind installed in the DSF cavity to when the Venetian blind is 0.5m away from the inner glazing, Middle and 0.5m away from the outer glazing in the DSF cavity. In these scenarios the dataset also shows the glazing surface temperatures for various Venetian blind slat angle openings of 135°, 90°, 45° and 0° in the three Venetian blind positions in the DSF cavity. The simulation was carried out at 100s per scenario. The dataset also contains the input and output data files obtained from the National Institute of Standards and Technology’s (NIST) Fire Dynamic Simulator (FDS) software used for the investigations. A PDF of the Physical Model and Thermocouple Position Map is also provided in this dataset to provide clarity for users of this dataset. The input and output source codes are provided in folders labelled Fire in DSF with Venetian Blind - Input Data and Fire in DSF with Venetian Blind - Output Data respectively. The dataset also includes the model validation data. The model validation data includes the surface temperatures in °C obtained from two thermocouples labelled TC 59 installed at a height of 1.6m representing the thermocouple on the upper floor and TC 63 installed at a height of 4.8m representing the thermocouple on the lower floor. The input source code for the simulation for the model validation is also included and labelled ‘Validation-Input’. A thermocouple map labelled Thermocouple Map-Validation Model is also included to provide users with clarity. Further information and details related to this dataset can be found in: Huang Y, Yeboah S, Shao J. Numerical investigation of fire in the cavity of naturally ventilated double skin façade with venetian blinds. Building Services Engineering Research and Technology. 2022;0(0). doi:10.1177/01436244221129763. https://journals.sagepub.com/doi/10.1177/01436244221129763

本数据集收录了源自于对5兆瓦HRR聚氨酯GM27火灾进行的热动力学模拟（FDS）所获得的温度数据，单位为摄氏度。数据由双层幕墙（DSF）内部不同楼层（2、3、4层）的玻璃表面热电偶所采集。数据集展示了从无垂直百叶帘安装至百叶帘与内部玻璃面距离0.5米，与外部玻璃面距离0.5米的情景，并涵盖了百叶帘在DSF腔体中三个位置（中位、靠近内部玻璃和靠近外部玻璃）的135°、90°、45°和0°开缝角度下的玻璃表面温度。模拟以每情景100秒的频率进行。此外，数据集还包括了国家标准与技术研究院（NIST）的火灾动力学模拟器（FDS）软件产生的输入和输出数据文件。为便于数据集使用者理解，还提供了物理模型与热电偶位置图的PDF文件。标注为“Fire in DSF with Venetian Blind - Input Data”和“Fire in DSF with Venetian Blind - Output Data”的文件夹中提供了输入和输出源代码。 数据集亦包含模型验证数据。模型验证数据包括在1.6米高度安装的标有TC 59的热电偶所获得的表面温度，代表上层楼板的热电偶；以及4.8米高度安装的标有TC 63的热电偶所获得的表面温度，代表下层楼板的热电偶。模型验证的模拟输入源代码亦包含在内，并标注为‘Validation-Input’。为使用户对验证模型有更清晰的了解，还附有标有‘Thermocouple Map-Validation Model’的热电偶图。 关于本数据集的进一步信息和细节，可参考：Huang Y, Yeboah S, Shao J. Numerical investigation of fire in the cavity of naturally ventilated double skin façade with venetian blinds. Building Services Engineering Research and Technology. 2022;0(0). doi:10.1177/01436244221129763. https://journals.sagepub.com/doi/10.1177/01436244221129763