Article Dans Une Revue Environments Année : 2025

Rapid 1D Design Method for Energy-Efficient Air Filtration Systems in Railway Stations

Résumé

Microscopic Particulate Matter (PM) below 10 µm can enter the respiratory system and affect human health in the short and long term. Railway enclosures are sites with high concentrations of fine PM and technical solutions like mechanical filtration exist to increase the air quality. However, several crucial factors must be evaluated and optimized like energy consumption, maintenance cost/interval, design and control. A fast and adaptable evaluation of decontamination solutions is required to find the optimal solution. To answer this, a 1D multizone model based on station discretization aligned with the track direction is proposed to precisely place decontamination systems along the station. In each zone, a set of ordinary differential equations is used to forecast the daily progression of PM concentrations, based on physical parameters (air and train velocities, and train traffic) used to describe the different physical phenomena (resuspension, deposition, ventilation and generation). Three-dimensional CFD (Computational Fluid Dynamics) simulations are used to characterize the efficiency and range of decontamination products and reproduce their effect in the 1D model. This approach allows for flexible optimization of local and global decontamination efficiencies with multiple parameter changes. PM10 and PM2.5 (below 10 and 2.5 µm) are studied here as they are often monitored.

Dates et versions

hal-05413543 , version 1 (12-12-2025)

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Citer

Pierre-Emmanuel Prétot, Christoph Schulz, David Chalet, Jérôme Migaud, Mateusz Bogdan. Rapid 1D Design Method for Energy-Efficient Air Filtration Systems in Railway Stations. Environments, 2025, 12 (12), pp.485. ⟨10.3390/environments12120485⟩. ⟨hal-05413543⟩
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