A chemostat with magnetic feedback for the growth of sulphate; reducing bacteria and its application to the removal and recovery of heavy metals from solution

A chemostat with magnetic feedback for the growth of sulphate; reducing bacteria and its application to the removal and recovery of heavy metals from solution

This paper describes a “magnetic feedback chemostat” for decontaminating various heavy metal solutions, from industrial sources, with direct precipitation as metallic sulphides or with bacterially produced FeS magnetic adsorbents. The proposal has implications for dramatically improving the economic...

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Bibliographic Details
Published in:Minerals engineering Vol. 9; no. 9; pp. 973 - 983
Main Authors: Watson, J.H.P., Ellwood, D.C., Duggleby, C.J.
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 1996
Elsevier Science
Subjects:
Applied sciences
biotechnology
environmental
Exact sciences and technology
Hydrometallurgy
Magnetic separation
Metals. Metallurgy
pollution
Production of metals
Production of non ferrous metals. Process materials
reclamation
biotechnology
environmental
Magnetic separation
pollution
reclamation
Biotechnology
Sulfate-reducing bacteria
Separation
Recovery metals
Experimental study
Iron sulfide
Heavy metal
Sulfides
Pollution
Adsorption
Decontamination
Bacteria
Chemostat
Hydrometallurgy
Environmental protection
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Summary:This paper describes a “magnetic feedback chemostat” for decontaminating various heavy metal solutions, from industrial sources, with direct precipitation as metallic sulphides or with bacterially produced FeS magnetic adsorbents. The proposal has implications for dramatically improving the economics of this biomagnetic separation process. Variations in magnetic susceptibility of FeS in the region of compositional interest, on the S-rich of 50-50 atomic %, can reduce the cost of heavy metal extraction by a factor of 50 fold. Appreciable variations in the magnetic properties of the bacterial-FeS occur and this leads to a variability of the overall process rate through the magnetic separator which affects the cost. The problem is that under a particular set of conditions produced by the solution to be treated, the bacteria which produce the most magnetic product are outgrown by those with a less magnetic product. To select the desired bacteria which produce a strongly magnetic adsorbent, the method,proposed is to grow, at various dilution rates, a mixed culture of sulphate reducing bacteria (SRB) in the solution to be treated in a chemostat. This will be used to treat an influent of heavy metals and other compounds from polluted industrial sources. Nutrient plus sufficient Fe will be added to the influent for the growth of the SRB together with the production of the FeS adsorbent. The overflow from the chemostat will go to a Vortex magnetic separator in which the magnetic FeS and the associated SRB are retuned to the chemostat. The bacteria producing the required magnetic product will therefore be selected and preferentially multiplied in the chemostat. This method will yield SRB producing the desired product starting from inocula obtained from various natural sources. In this way different bacterial consortia will be selected, appropriate to each industrial requirement.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
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ISSN:0892-6875
1872-9444
DOI:10.1016/0892-6875(96)00088-X