The DOI displayed above is for this specific version of this dataset, which is currently the latest. Newer versions may be published in the future. For a link that will always point to the latest version, please use
DOI: 10.4121/fb48f6a4-9e2c-491e-88b2-5aba8bbe9f06

Gillmeier, Stefanie; Radhakrishnan Jayakumari, Anjali (2025): ERIES-Pollutant Reintroduction Investigation for Occupational Risk Reduction - a Benchmark. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/fb48f6a4-9e2c-491e-88b2-5aba8bbe9f06.v1

Categories

• Building
• Air Quality
• Built Environment and Design
• Environment

Keywords

Building model Idealized model Isolated model Mechanical ventilation Occupational Safety and Health Passive scalar Pollutant dispersion Pollutant-re-introduction Tracer gas Ventilation Wind tunnel experiment

Licence

CC BY 4.0

Interoperability

• RO-Crate Metadata

Collection

• ERIES: Engineering Research Infrastructures for European Synergies

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by Stefanie Gillmeier , Anjali Radhakrishnan Jayakumari

A series of experiments was conducted in the closed-circuit Atmospheric Boundary Layer Wind Tunnel at Eindhoven University of Technology, involving a building model at a reduced geometric scale of 1:40. The building model includes a working single-flow mechanical ventilation system and a pollutant source above the roof. The aim of this test was to provide an experimental benchmark to quantify pollutant re-introduction due to both building ventilation and atmospheric wind effects. The steady-state normalized pollutant concentration at the exhaust ventilation fan was measured for 13 reference wind directions (0°, 15°, 30°, 45°, 50°, 60°, 75°, 90°, 135°, 180°, 225°, 270° and 315°) and 3 reference wind speeds (6.4 m/s, 9.0 m/s and 11.1 m/s), leading to 39 wind conditions. For the two most critical scenarios, an internal mapping of the normalized pollutant concentration was conducted on a 3x3x3 grid inside the building. For one wind condition, the normalized pollutant concentration was measured at each of the 40 ventilation air inlets of the building model. In the framework of occupational risk control, these data can be used first to better understand the dynamics of pollutant dispersion around and into a ventilated building, then to assess corresponding numerical simulations.

In addition to the Metadata report, raw data time series of pollutant concentrations as well as appraoch flow conditions, and ambient conditions for the conducted measurements are provided here.

History

• 2025-06-10 first online, published, posted

Publisher

4TU.ResearchData

Format

'pdf' 'stp' 'png' 'jpg' 'xlsx' 'm (Matlab)' 'asA' 'thA' 'tdms' 'txt'

Data link

https://www.dataaccessportal.eu/

Funding

• ERIES - Engineering Research Infrastructures for European Synergies (grant code Grant Agreement No. 101058684.) [more info...] European Union’s Horizon Europe Framework Programme

Organizations

TU Eindhoven, Department of the Built Environment, Building Physics and Services;
INRS | Institut National de Recherche et de Sécurité;
Institut de recherche Robert-Sauvé en santé et en sécurité du travail (IRSST)