Browse by author
Lookup NU author(s): Dr Catherine Gandy
Full text for this publication is not currently held within this repository. Alternative links are provided below where available.
At present there is no suitable method to predict either the longevity of contaminant sources within spoil heaps, or the evolution of their strength over the contaminating lifetime of the sites. Existing techniques provide little information relevant to the prediction of field contaminant concentrations and time scales, which is essential for an optimum choice of remediation options. A physically-based contaminant transport model, POTOMAC (Pyrite Oxidation products Transport: Object-oriented Model for Abandoned Colliery sites), has been developed to simulate the pyrite oxidation process in mine spoil heaps and the subsequent transport of the reaction products. This is believed to represent the first particle tracking model created using object-oriented technology. The model conceptualises a spoil heap as a series of ‘columns’, each representing a portion of the unsaturated zone, where active weathering and precipitation of secondary minerals takes place. The columns are then connected to a saturated zone, beneath the water table, where the contaminants are transported to the heap discharge. POTOMAC has been applied to a case study, the Morrison Busty spoil heap in County Durham, UK.
Author(s): Gandy CJ
Editor(s): Loredo J; Pendas F
Publication type: Conference Proceedings (inc. Abstract)
Publication status: Published
Conference Name: Proceedings of the 9th International Mine Water Association Congress
Year of Conference: 2005
Number of Volumes: 1
Pages: 161-167
Publisher: IMWA: the International Mine Water Association
URL: http://www.imwa.info/docs/imwa_2005/IMWA2005_023_Gandy.pdf