GROUNDWATER MODELLING AS A WATER MANAGEMENT TOOL
M.E. Masemola1 and K. T. Witthüser2
1Nabla H Groundwater Specialists (Pty) Ltd, Pretoria, South Africa
2Delta-h Water Systems Modelling (Pty) Ltd, Pretoria, South Africa
Email of corresponding author: eva@nabla-h.co.za
New Vaal Colliery (NVC) is an opencast mine in the northern Free State, located along the meandering Vaal river and underlain by the Transvaal Supergroup dolomitic aquifer. Dewatering of the pits results in high-sulphate water that needs to be stored in the Maccauvlei dam, the main unlined pollution control dam. In 2011, the mine was issued a water use license containing challenging conditions, one of which was the requirement for all water pollution dams on site to be lined.
The conditions were viewed as impractical and unnecessary as the mine impacted water did not pose a risk to the surrounding environment, in particular to the underlying dolomitic aquifer. In order to motivate for the amendment of the of the license conditions, a hydrogeological conceptual site modelling (CSM) process was initiated in order to identify and quantify the groundwater balance and assess the extent of interaction between the dolomite aquifer and the mine. The CSM formed the basis for the development of a detailed and robust numerical model and triggered the re-evaluation of the mine’s land rehabilitation plan.
The results were to be used to ensure the risks associated with water management on site were addressed and for submission of a water use license amendment application.
This paper summarises the CSM development. A history of hydrogeological studies provided the initial understanding of the hydrostratigraphy which is characterised by three main units, namely the shallow aquifers, Karoo aquifers and aquiclude as well as the pre-Karoo aquifer and aquiclude. The available site data indicated that while the Maccauvlei dam may have a hydraulic connection to the shallow artificial mine aquifer, it was unlikely that water from the dam impacted on the dolomitic aquifer. This was supported by the measured water levels in the dolomite aquifer boreholes, which generally recorded an elevation above that of the Vaal River, confirming the confined or semi-confined nature of the aquifer. The pressure heads suggested that water flow was from the dolomitic aquifer to the mine and not the other way around. Of significance to the mine’s water management were the findings that 1) a geological graben forming the boundary between NVC and the defunct Cornelia mine could provide substantial groundwater flow into the mine and 2) that the flooded old underground mine working still to be mined are likely to exceed the site’s infrastructure capacity for water storage and limit coal production.
The CMS was sufficient to illustrate that it is not likely that the mine water has an impact on the dolomitic aquifer quality, a finding later supported by the numerical model. The modelling process provided the necessary platform to negotiate a progressive implementation of license conditions that are specific to the mine and cost effective over the life of mine, despite the gaps identified.
15th Biennial Ground Water Division Conference, 14 – 18 October 2017