Premium
Evaluating Natural Attenuation of Groundwater Pollution from a Coal‐Carbonisation Plant: Developing a Local‐Scale Model using MODFLOW, MODTMR and MT3D
Author(s) -
Davison R. M.,
Lerner D. N.
Publication year - 2000
Publication title -
water and environment journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.437
H-Index - 37
eISSN - 1747-6593
pISSN - 1747-6585
DOI - 10.1111/j.1747-6593.2000.tb00288.x
Subject(s) - modflow , hydrogeology , aquifer , environmental science , groundwater , dispersion (optics) , groundwater flow , pollution , grid , flow (mathematics) , coal , petroleum engineering , soil science , environmental engineering , hydrology (agriculture) , geology , geotechnical engineering , waste management , engineering , mechanics , ecology , physics , optics , geodesy , biology
The effluent from a former coal‐carbonisation plant in Nottinghamshire has contaminated the underlying aquifer with ammonium and organic compounds. In terms of flow and contamination, the site has experienced a complex history. MODFLOW has been used to unravel the past flow directions and to provide a basis for solute transport and biodegradation modelling. The modelling has shown that a fine grid is required to represent local flows to prevent incorrect site interpretations. A telescopic mesh technique was essential for this study to enable the site features to be adequately represented while including the regional hydrogeological influences. The influence of grid size to numerical dispersion was investigated for the MT3D computer program. The ‘method of characteristics’and ‘hybrid method of characteristics’modules of MT3D were found to be relatively free from numerical dispersion for all the grid sizes investigated. However, the ‘modified method of characteristics’suffered extensively, and a linear relationship between grid size and numerical dispersion was demonstrated for this complex model.