Inhibition of sulfate reduction by iron, cadmium and sulfide in granular sludge
Article
-
- Overview
-
- Research
-
- Identity
-
- Additional Document Info
-
- View All
-
Overview
abstract
-
This study investigated the inhibition effect of iron, cadmium and sulfide on the substrate utilization rate of sulfate reducing granular sludge. A series of batch experiments in a UASB reactor were conducted with different concentrations of iron (Fe2%2b, 4.0-8.5 mM), cadmium (Cd2%2b, 0.53-3.0 mM) and sulfide (4.2-10.6 mM), the reactor was fed with ethanol at 1 g chemical oxygen demand (COD)/L and sulfate to yield a COD/SO42- (g/g) ratio of 0.5. The addition of iron, up to a concentration of 8.1 mM, had a positive effect on the substrate utilization rate which increased 40%25 compared to the rate obtained without metal addition (0.25 g COD/g VSS-d). Nonetheless, iron concentration of 8.5 mM inhibited the specific substrate utilization rate by 57%25 compared to the substrate utilization rate obtained in the batch amended with 4.0 mM Fe2%2b (0.44 g COD/g VSS-d). Cadmium had a negative effect on the specific substrate utilization rate at the concentrations tested; at 3.0 mM Cd2%2b the substrate utilization rate was inhibited by 44%25 compared with the substrate utilization rate without metal addition. Cadmium precipitation with sulfide did not decrease the inhibition of cadmium on sulfate reduction. These results could have important practical implications mainly when considering the application of the sulfate reducing process to treat effluents with high concentrations of sulfate and dissolved metals such as iron and cadmium. © 2009 Elsevier B.V. All rights reserved.
publication date
published in
Research
keywords
-
Cadmium; Granular sludge; Inhibition; Iron; Sulfate reduction; UASB reactor Batch experiments; Cadmium precipitation; Concentration of; Dissolved metals; Granular sludge; High concentration; Inhibition; Inhibition effect; Iron concentrations; Metal addition; Positive effects; Substrate utilization; Sulfate reducing; Sulfate reduction; UASB reactor; Chemical oxygen demand; Concentration (process); Dissolution; Ethanol; Granular materials; Oxygen; Spectrum analyzers; Substrates; Cadmium; cadmium; iron; sulfate; sulfide; cadmium; chemical oxygen demand; concentration (composition); effluent; experimental study; granular medium; inhibition; iron; reduction; sludge; sulfate; sulfide; waste treatment; article; batch reactor; chemical oxygen demand; concentration (parameters); controlled study; reduction; sludge treatment; waste water management; Biodegradation, Environmental; Bioreactors; Cadmium; Chemistry Techniques, Analytical; Equipment Design; Iron; Metals; Sewage; Sulfates; Sulfides; Waste Disposal, Fluid; Water Pollutants, Chemical; Water Purification
Identity
Digital Object Identifier (DOI)
PubMed ID
Additional Document Info
start page
end page
volume
issue