The CORONA Screening Model (CSM) is a new spreadsheet tool for the prediction of contaminant plume length in groundwater. The CSM has been used to predict the spreading of a BTEX and Styrene plume in an unconfined sandy aquifer. To test the reliability of this new software, the results gained by the application of CSM have been compared with the ones obtained with the implementation of a numerical model built using a world accepted and tested code like PMWIN. In the numerical model a coupled reactive transport model PHT3D has been used to simulate the fate of dissolved BTEX and Styrene in the aquifer. The model grid was intensevely tested to avoid numerical dispersion. Calibration was achieved comparing 3 data sets sampled in different water table conditions coming from MLS located along a flow line. CORONA: Confidence in fORecasting Of Natural Attenuation: a research project supported by the European Commission under the Fifth Framework Programme Coordinated by GPRG - University of Sheffield (UK) - www.shef.ac.uk~gprg/corona -
The CORONA screening model and a 2D reactive transport model for a BTEX and styrene plume to evaluate natural attenuation potential / Colombani N.; Gargini A.; Mastrocicco M.. - STAMPA. - (2005), pp. 1-14. (Intervento presentato al convegno AVR, Aquifer Vulnerability and Risk” 2nd International Workshop, 4th Congress on the Protection and Management of Groundwater tenutosi a Reggia di Colorno, PR nel Settembre, 2005).
The CORONA screening model and a 2D reactive transport model for a BTEX and styrene plume to evaluate natural attenuation potential.
GARGINI, ALESSANDRO;
2005
Abstract
The CORONA Screening Model (CSM) is a new spreadsheet tool for the prediction of contaminant plume length in groundwater. The CSM has been used to predict the spreading of a BTEX and Styrene plume in an unconfined sandy aquifer. To test the reliability of this new software, the results gained by the application of CSM have been compared with the ones obtained with the implementation of a numerical model built using a world accepted and tested code like PMWIN. In the numerical model a coupled reactive transport model PHT3D has been used to simulate the fate of dissolved BTEX and Styrene in the aquifer. The model grid was intensevely tested to avoid numerical dispersion. Calibration was achieved comparing 3 data sets sampled in different water table conditions coming from MLS located along a flow line. CORONA: Confidence in fORecasting Of Natural Attenuation: a research project supported by the European Commission under the Fifth Framework Programme Coordinated by GPRG - University of Sheffield (UK) - www.shef.ac.uk~gprg/corona -I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
