3D Numerical Analysis for the Valorization Potential of Spoil Heaps by Shallow Foundations

Coal has been an energy source exploited for several decades, with its extraction being linked to creating wastes. Surface mines’ overburden and interburden materials are typically dumped in spoil heaps, many times without considering their future use. Nowadays, sustainability and circular economy p...

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Bibliographic Details
Published in:Sustainability 2022-06, Vol.14 (12), p.7363
Main Authors: Theocharis, Alexandros I., Zevgolis, Ioannis E., Roumpos, Christos, Koukouzas, Nikolaos C.
Format: Article
Language:English
Subjects:
Buildings
Coal mining
Constitutive models
Construction
Energy
Energy sources
Footings
Installation
Mine wastes
Mines
Numerical analysis
Overburden
Raft foundations
Reclamation
Shallow foundations
Soil analysis
Strip mining
Superstructures
Surface mines
Sustainability
Turbines
Wind power
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Summary:Coal has been an energy source exploited for several decades, with its extraction being linked to creating wastes. Surface mines’ overburden and interburden materials are typically dumped in spoil heaps, many times without considering their future use. Nowadays, sustainability and circular economy principles demand the efficient valorization of these areas. In that vein, this work investigates alternatives from a geotechnical perspective with shallow foundations for the reclamation of a massive spoil heap. Initially, the installation with a raft foundation of a wind turbine was investigated through a serviceability limit envelope employing 3D finite element analysis. However, the spoil material is too soft to withstand such a massive superstructure, and more advanced foundation techniques are needed. Moreover, the installation of supportive constructions was examined, i.e., buildings with shallow isolated footings using a similar approach and 3D finite element analysis. The soil-footing response is much dependent on the constitutive model, and the potential of small buildings requires further attention. Overall, for the appropriate valorization of the spoil heap, it appears that ground improvement or deep foundations are necessary. This conclusion stands for many similar spoil heaps globally due to the material’s nature.
ISSN:2071-1050
2071-1050
DOI:10.3390/su14127363