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Potential conflicts connected with the recovery of secondary materials from post mining waste dump

Łukasz Gawor
Łukasz Gawor
   | 29 dic 2017
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Pubblicato online: 29 dic 2017
Pagine: 82 - 86
Ricevuto: 30 ott 2017
Accettato: 13 dic 2017
DOI: https://doi.org/10.1515/environ-2017-0023
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© 2017 Łukasz Gawor, published by De Gruyter Open
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

Gabzdyl W. 1994. Geologia złóż węgla. Złoża świata. Polska Agencja Ekologiczna, Warszawa.Search in Google Scholar

Gawor Ł. 2011. Der Einfluss von Rechtsvorschriften auf Rekultivierung und Folgenutzung von Bergehalden am Beispiel des Oberschlesischen Steinkohlebeckens und des Ruhrgebietes. Wyd. Politech. Śląskiej, Gliwice.Search in Google Scholar

Gawor Ł. 2014a. Coal mining waste dumps as secondary deposits exemplified on Upper Silesian Coal Basin and Lublin Coal Basin. Geol., Geoph. Environ., 40(3):285–289.Search in Google Scholar

Gawor Ł. 2014b. Polish legal regulations considering recovery of secondary materials from coal mining dumping grounds. Environ. Socio-econ. Stud., 2, 4: 43–46.Search in Google Scholar

Gawor Ł., Jankowski A.T., Ruman M. 2011. Post-mining dumping grounds as geotourist attractions in the Upper Silesian Coal Basin and the Ruhr District. Moravian Geogr. Reports, 19, 4: 61–68.Search in Google Scholar

Gray N.F. 1997. Environmental impact and remediation of acide mine drainage: a management problem. Environ. Geology, 30: 62–71.Search in Google Scholar

Hansel G., Schulz D. 1996. Gestaltung, Bodenentwicklung und Begrünung von Bergehalden des Steinkohlenbergbaus. Geol. Jahrbuch, Reihe A, 199, 144: 165–180.Search in Google Scholar

Kuna-Gwoździewicz P. 2013. Emission of polycyclic aromatic hydrocarbons from the exhalation zones of thermally active mine waste dumps. J. Sust. Min., 12, 1: 7–12.Search in Google Scholar

Martinec P. et al., 2006. Termination of underground coal mining and its impact on the environment. Inst. Geonics Acad. Sci., Czech Republic, Ostrava.Search in Google Scholar

Nyssen J., Vermeersch D. 2010. Slope aspect affects geomorphic dynamics of coal mining spoil heaps in Belgium. Geomorphology, 123(1-2): 109–121.Search in Google Scholar

Schulz D. 2004. Recultivation of mining waste dumps in the Ruhr area, Germany. Water Air Soil Pollut., 91(1-2): 89–98.Search in Google Scholar

Stefaniak S., Twardowska I. 2005. Changes in the hydrogeochemical profile of the anthropogenic vadose zone resulted from the re-mining and re-disposal of coal extractive waste. Zesz. Nauk. Politech. Śl., Górnictwo, 267: 269–276.Search in Google Scholar

Szczepańska J., Twardowska I. 1999. Distribution and environmental impact of coal mining wastes in Upper Silesia. Poland. Environ. Geology, 38, 3: 249–258.10.1007/s002540050422Open DOISearch in Google Scholar

Szczepańska J., Twardowska I. 2004. Mining waste. [in:] Twardowska et al. (eds.) Solid waste: assessment, monitoring and remediation. Elsevier, Amsterdam: 319–386.Search in Google Scholar

www.haldex.com.plSearch in Google Scholar

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