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Remediation of heavy-metal contaminated sediments by means of bioleaching. Study: project results - economic efficiency - market assessment. Final report; Reinigung schwermetallbelasteter Sedimente durch Bioleaching. Studie: Projektergebnisse - Wirtschaftlichkeit - Marktbewertung. Schlussbericht

Abstract

Sediments in running and stationary waters continue to pose environmental as well as cost problems. In Saxonian waters alone some 3.7 million m{sup 3} of sediments mostly contaminated with heavy metals from mining or industrial activities are in need of remediation. For lack of practicable remediation methods excavated sediments nowadays are landfilled. However, due to its persisting hazard potential this solution is ecologically unsatisfactory. Exposure of these sediments to oxygen leads to microbial oxidation and acidification processes and hence partial solubilisation of heavy metals. If allowed to proceed uncontrolled this natural bioleaching process poses an environmental hazard. However, if accelerated artificially through activation of autochtonous sulphur oxidising bacteria (e.g. thiobacilli) it can be used to remediate sediments. The goal is to provide a semi-natural sediment decontamination process based on natural biological solubilisation potentials After decontamination, sediments can be returned to the materials cycle as soil substrates. The present process was developed using heavily contaminated sediments from the Weisse Elster region south of Leipzig as example material. For economic reasons it was decided to use a fixed-bed leaching process based on percolation. It proved necessary to use a multistage process. The laboratory and technical-scale experiments were dedicated to developing and implementing  More>>
Publication Date:
Jul 01, 2002
Product Type:
Miscellaneous
Report Number:
ETDE-DE-1431
Resource Relation:
Other Information: PBD: Jul 2002; Related Information: UFZ-Berichtv. 13/2002
Subject:
54 ENVIRONMENTAL SCIENCES; SURFACE WATERS; SEDIMENTS; DREDGE SPOIL; POLLUTION CONTROL; BIOREMEDIATION; OXIDATION; PH VALUE; THIOBACILLUS OXIDANS; PILOT PLANTS; LEACHING; ZINC; CADMIUM; NICKEL; MANGANESE; COBALT; COPPER; CHROMIUM; LEAD; ARSENIC; EXPERIMENTAL DATA
Sponsoring Organizations:
Deutsche Bundesstiftung Umwelt, Osnabrueck (Germany)
OSTI ID:
20339685
Research Organizations:
UFZ - Umweltforschungszentrum Leipzig-Halle GmbH, Leipzig (Germany). Sektion Sanierungsforschung; Bauer und Mourik Umwelttechnik GmbH und Co., Schrobenhausen (Germany)
Country of Origin:
Germany
Language:
German
Other Identifying Numbers:
Other: Contract DBU 12099; ISSN 0948-9452; TRN: DE03G4569
Availability:
Available to ETDE participating countries only(see www.etde.org); commercial reproduction prohibited; OSTI as DE20339685
Submitting Site:
DE
Size:
228 pages
Announcement Date:

Citation Formats

Loeser, C, Zehnsdorf, A, Hoffmann, P, Seidel, H, and Schmerold, R. Remediation of heavy-metal contaminated sediments by means of bioleaching. Study: project results - economic efficiency - market assessment. Final report; Reinigung schwermetallbelasteter Sedimente durch Bioleaching. Studie: Projektergebnisse - Wirtschaftlichkeit - Marktbewertung. Schlussbericht. Germany: N. p., 2002. Web.
Loeser, C, Zehnsdorf, A, Hoffmann, P, Seidel, H, & Schmerold, R. Remediation of heavy-metal contaminated sediments by means of bioleaching. Study: project results - economic efficiency - market assessment. Final report; Reinigung schwermetallbelasteter Sedimente durch Bioleaching. Studie: Projektergebnisse - Wirtschaftlichkeit - Marktbewertung. Schlussbericht. Germany.
Loeser, C, Zehnsdorf, A, Hoffmann, P, Seidel, H, and Schmerold, R. 2002. "Remediation of heavy-metal contaminated sediments by means of bioleaching. Study: project results - economic efficiency - market assessment. Final report; Reinigung schwermetallbelasteter Sedimente durch Bioleaching. Studie: Projektergebnisse - Wirtschaftlichkeit - Marktbewertung. Schlussbericht." Germany.
@misc{etde_20339685,
title = {Remediation of heavy-metal contaminated sediments by means of bioleaching. Study: project results - economic efficiency - market assessment. Final report; Reinigung schwermetallbelasteter Sedimente durch Bioleaching. Studie: Projektergebnisse - Wirtschaftlichkeit - Marktbewertung. Schlussbericht}
author = {Loeser, C, Zehnsdorf, A, Hoffmann, P, Seidel, H, and Schmerold, R}
abstractNote = {Sediments in running and stationary waters continue to pose environmental as well as cost problems. In Saxonian waters alone some 3.7 million m{sup 3} of sediments mostly contaminated with heavy metals from mining or industrial activities are in need of remediation. For lack of practicable remediation methods excavated sediments nowadays are landfilled. However, due to its persisting hazard potential this solution is ecologically unsatisfactory. Exposure of these sediments to oxygen leads to microbial oxidation and acidification processes and hence partial solubilisation of heavy metals. If allowed to proceed uncontrolled this natural bioleaching process poses an environmental hazard. However, if accelerated artificially through activation of autochtonous sulphur oxidising bacteria (e.g. thiobacilli) it can be used to remediate sediments. The goal is to provide a semi-natural sediment decontamination process based on natural biological solubilisation potentials After decontamination, sediments can be returned to the materials cycle as soil substrates. The present process was developed using heavily contaminated sediments from the Weisse Elster region south of Leipzig as example material. For economic reasons it was decided to use a fixed-bed leaching process based on percolation. It proved necessary to use a multistage process. The laboratory and technical-scale experiments were dedicated to developing and implementing measures for faster metal solubilisation. [German] Gewaessersedimente sind ein bisher ungeloestes Umwelt- und Kostenproblem. Allein aus den Gewaessern Sachsens muessen ca. 3,7 Millionen m{sup 3} Sedimente beraeumt werden, diese sind zum grossen Teil mit Schwermetallen aus bergbaulichen und industriellen Aktivitaeten belastet. Gegenwaertig werden die ausgebaggerten Sedimente deponiert, da praktikable Sanierungsverfahren fehlen. Die Deoponierung ist wegen des weiter bestehenden Gefaehrdungspotentials keine oekologisch befriedigende Loesung. Kommen die Sedimente mit Sauerstoff in Kontakt, gehen die Schwermetalle durch mikrobielle Oxidations- und Versauerungsprozesse teilweise in Loesung. Dieses natuerliche Bioleaching, welches unkontrolliert ein Gefahrenpotential fuer die Umwelt darstellt, soll durch Aktivierung der autochthonen schwefeloxidierenden Bakterien (z.B. Thiobacilli) beschleunigt und zur Reinigung der Sedimente genutzt werden. Ziel ist es, ein naturnahes Verfahren zur Sedimentdekontamination unter Nutzung des natuerlichen biologischen Solubilisierungspotentials bereitzustellen. Die gereinigten Sedimente sollen in den Stoffkreislauf als Bodensubstrat zurueckgefuehrt werden. Die Verfahrensentwicklung erfolgte am Beispiel von hochbelasteten Sedimenten der Weissen Elster aus dem Suedraum Leipzig. Aus oekonomischen Gruenden soll das Bioleaching der Schwermetalle durch Festbettlaugung nach dem Perkolationsprinzip erfolgen. Das Verfahren erfordert mehrere Prozessstufen. Der Schwerpunkt der Untersuchungen im Labor- und Technikumsmassstab lag auf der Erarbeitung und technischen Umsetzung von Massnahmen zur Beschleunigung der Metallsolubilisierung. (orig.)}
place = {Germany}
year = {2002}
month = {Jul}
}