CFD modeling of water spray interaction with dense gas plumes

Abstract

Numerical calculations are performed to reproduce the transport and dispersion of the continuous release of dense gases over flat homogeneous surfaces with and without the mitigating influence of a downwind water curtain. Frequently such plumes are released as a result of a chemical manufacturing, storage or gas transportation accident resulting in a ground-level hazard due to gas flammability or toxicity. A field situation in which cold carbon dioxide was released upwind of water curtains ( Moodie et al., 1981 ) was simulated using the open-source software FDS (Fire Dynamic Simulator) a full 3-d CFD model. Only water-spray enhancement of dispersion was considered; hence, no chemical removal or reactions were present or simulated. Wind-tunnel measurements for a 1:28.9 scale replication of the Moodie experiments are also compared with the 3-d CFD results. Concentration distributions, percent dilution and forced diffusion parameters were compared in scatter diagrams. Concentration field contours with and without active spray curtains are also presented. ► Model replicated dense gas dispersing with water-spray curtain mitigation devices. ► Cold carbon dioxide released upwind of water curtains was simulated using CFD. ► Wind-tunnel measurements were compared with the 3-d CFD results. ► Concentration, percent dilution and forced dilution were compared in diagrams.