Control of the Remediation of Anoxic AMD Groundwater by Sulphate Reduction in a Subsoil Reactor

Control of the Remediation of Anoxic AMD Groundwater by Sulphate Reduction in a Subsoil Reactor

Groundwater containing high amounts of products of pyrite weathering as a consequence of lignite mining flows into receiving waters for a number of years. Iron hydroxides causing turbidity and silting will strongly affect the river Spree for many decades. In addition to liming acidic surface waters...

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Bibliographic Details
Main Authors: Ralph Schöpke, Manja Walko
Format: Article
Language:English
Published: Ital Publication 2022-09-01
Series:Journal of Human, Earth, and Future
Subjects:
groundwater
acid mine drainage (amd)
treatment
biochemical reactions.
Online Access:https://hefjournal.org/index.php/HEF/article/view/182
Description
Summary:Groundwater containing high amounts of products of pyrite weathering as a consequence of lignite mining flows into receiving waters for a number of years. Iron hydroxides causing turbidity and silting will strongly affect the river Spree for many decades. In addition to liming acidic surface waters and the conventional treating of mine waters, microbial sulphate reduction of the inflowing anoxic AMD groundwater is tested for long-term remediation. During a pilot project at Lusatia / Germany, glycerin as a carbon source and nutrient solutions of N and P are infiltrated into an anoxic AMD groundwater stream by lances. Planning and operations were carried out based on the model as proposed below.   Doi: 10.28991/HEF-2022-03-03-02 Full Text: PDF
ISSN:2785-2997

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