Abstract
The large amount of spoil material produced during the mining process imposes a significant economic and environmental liability on lignite producers. In this context, the present paper provides an overview of the geotechnical characteristics of European lignite mine spoil heaps and discusses their significance to the stability of the heaps. In order to achieve this, samples collected from spoil heaps of Polish, Czech and Greek mines are analysed and the results are compiled with data from the literature. A major conclusion drawn is that both physical and engineering properties of spoil heaps indicate a noteworthy variability, which is larger than typical in situ ground material. This is because of the additional factors affecting spoil heap deposition, such as the transportation and dumping method. Furthermore, failure mechanisms and case histories of large instabilities in lignite spoil heaps are critically discussed in order to better understand triggering failure mechanisms. It is concluded that classical assumptions made for natural soil slopes and relevant limit equilibrium models should be cautiously applied to spoil heaps. The challenges associated with numerical and probabilistic modelling of spoil heap stability, such as the inherent spatial variability of spoils and the time-dependent changes in their geotechnical properties, are also critically discussed. Finally, important research gaps in design and analysis of spoil heap stability, such as the absence of appropriate constitutive models developed specifically for spoil materials, are summarised.
Highlights
Lignite, known as brown coal, is a low-rank coal and one of the cheapest sources of energy worldwide
This paper provides an overview of the characteristics of materials typically found in spoil heaps, including new datasets obtained from European lignite mines and existing data available in the literature, with special attention given to the variability of geotechnical characteristics
The problem of slope stability in spoil heaps is a significant challenge for lignite mining operations
Summary
The large amount of spoil imposes a significant economic and environmental liability on lignite producers. Rivas-Pérez et al (2016) presented the results of a 20-year study on chemical characteristics of an afforested coal mine heap and showed that the acidity of the soil and groundwater may significantly fluctuate over time. They observed that the pH of groundwater generally decreased slowly over time, in some cases, the level of. The point at which the shear strength starts to decrease represents the transition from clayey sand to sandy clay Their oedometer tests showed that the compression indices of soil increase as clay content increases; mainly because as clay content increases, the number of contacts between coarse grains decreases (Fig. 6d).
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