Oliveira, Daniel P. S., Gonçalves, Pedro, Morais, Igor, Silva, Teresa P., Matos, João X., Albardeiro, Luís, Filipe, Augusto, Batista, Maria João, Santos, Sara, Fernandes, João (2024) Unlocking the Secondary Critical Raw Material Potential of Historical Mine Sites, Lousal Mine, Southern Portugal. Minerals, 14 (2) doi:10.3390/min14020127

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Reference Type	Journal (article/letter/editorial)
Title	Unlocking the Secondary Critical Raw Material Potential of Historical Mine Sites, Lousal Mine, Southern Portugal
Journal	Minerals
Authors	Oliveira, Daniel P. S.		Author
	Gonçalves, Pedro		Author
	Morais, Igor		Author
	Silva, Teresa P.		Author
	Matos, João X.		Author
	Albardeiro, Luís		Author
	Filipe, Augusto		Author
	Batista, Maria João		Author
	Santos, Sara		Author
	Fernandes, João		Author
Year	2024	Volume	< 14 >
Issue	< 2 >
URL	https://www.mdpi.com/2075-163X/14/2/127
DOI	doi:10.3390/min14020127Search in ResearchGate
Classification	Not set	LoC	Not set
Mindat Ref. ID	17123407	Long-form Identifier	mindat:1:5:17123407:9
GUID	81361c91-5f57-4f13-9be0-6aca6174202a
Full Reference	Oliveira, Daniel P. S., Gonçalves, Pedro, Morais, Igor, Silva, Teresa P., Matos, João X., Albardeiro, Luís, Filipe, Augusto, Batista, Maria João, Santos, Sara, Fernandes, João (2024) Unlocking the Secondary Critical Raw Material Potential of Historical Mine Sites, Lousal Mine, Southern Portugal. Minerals, 14 (2) doi:10.3390/min14020127
Plain Text	Oliveira, Daniel P. S., Gonçalves, Pedro, Morais, Igor, Silva, Teresa P., Matos, João X., Albardeiro, Luís, Filipe, Augusto, Batista, Maria João, Santos, Sara, Fernandes, João (2024) Unlocking the Secondary Critical Raw Material Potential of Historical Mine Sites, Lousal Mine, Southern Portugal. Minerals, 14 (2) doi:10.3390/min14020127
In	Link this record to the correct parent record (if possible)
Abstract/Notes	A steady supply of mineral raw materials is vital for the transition to a low-carbon, circular economy. The number of active mines in Europe has severely declined over the last century and half, giving rise to many abandoned mining waste sites and corresponding geological heritage. Also, the rise in minerals demand for large-scale deployment of renewable energy requires the continued and steady availability of key minerals. The supply risk associated with unpredicted geopolitical events needs to be eliminated/mitigated. Historical mine waste sites are the answer but evaluating mine waste is a lengthy and costly exercise. The study, undertaken in the Lousal Mine, used small unmanned aerial systems (sUASs) to model and determine mine waste volumes by generating orthomosaic maps with quick, inexpensive, and reliable results. Calculated mine waste volumes between 308,478 m3 and 322,455 m3 were obtained. XRD and p-XRF techniques determined the mineralogy and chemistry of waste, which varied from mineralization and host rocks with hydrothermal alteration and numerous neogenic sulphates (mostly gypsum, rhomboclase, ferricopiapite, coquimbite, and jarosite) related with supergene processes and weathering. The study shows the viability of using these sUASs to successfully model historical mine waste sites in an initial phase and for future monitoring programs.

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Locality	Citation Details
Lousal Mine, Azinheira dos Barros, Grândola, Setúbal, Portugal

Mineral Occurrences

Locality	Mineral(s)
Lousal Mine, Azinheira dos Barros, Grândola, Setúbal, Portugal	ⓘ Albite, ⓘ Aluminocoquimbite, ⓘ Alunogen, ⓘ Anglesite, ⓘ Anhydrite, ⓘ Biotite, ⓘ Black shale, ⓘ Chalcopyrite, ⓘ Chamosite, ⓘ Chlorite Group, ⓘ Coquimbite, ⓘ Feldspar Group, ⓘ Ferricopiapite, ⓘ Gypsum, ⓘ Hexahydrite, ⓘ Jarosite, ⓘ Muscovite, ⓘ Natrojarosite, ⓘ Paracoquimbite, ⓘ Pyrite, ⓘ Quartz, ⓘ Rhomboclase, ⓘ Römerite, ⓘ Starkeyite, ⓘ Szomolnokite, ⓘ Tamarugite, ⓘ Voltaite

Locality

Mineral(s)

Lousal Mine, Azinheira dos Barros, Grândola, Setúbal, Portugal

ⓘ Albite, ⓘ Aluminocoquimbite, ⓘ Alunogen, ⓘ Anglesite, ⓘ Anhydrite, ⓘ Biotite, ⓘ Black shale, ⓘ Chalcopyrite, ⓘ Chamosite, ⓘ Chlorite Group, ⓘ Coquimbite, ⓘ Feldspar Group, ⓘ Ferricopiapite, ⓘ Gypsum, ⓘ Hexahydrite, ⓘ Jarosite, ⓘ Muscovite, ⓘ Natrojarosite, ⓘ Paracoquimbite, ⓘ Pyrite, ⓘ Quartz, ⓘ Rhomboclase, ⓘ Römerite, ⓘ Starkeyite, ⓘ Szomolnokite, ⓘ Tamarugite, ⓘ Voltaite

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