Photo-induced transformations of mercury(II) species in the presence of algae, Chlorella vulgaris

The effects of algae (i.e., Chlorella vulgaris), Fe(III), humic substances, and pH on the photoreduction of Hg(II) under the irradiation of metal halide lamps ( λ ≥ 365 nm, 250 W) were investigated in this paper. The photoreduction rate of Hg(II) was found to increase with the increasing concentrati...

Full description

Saved in:
Bibliographic Details
Published in:Journal of hazardous materials 2009-05, Vol.164 (2), p.798-805
Main Authors: Deng, Lin, Fu, Dafang, Deng, Nansheng
Format: Article
Language:English
Subjects:
Applied sciences
Chlorella vulgaris
Chlorella vulgaris - chemistry
Environmental Restoration and Remediation - methods
Eukaryota
Exact sciences and technology
Fe(III)
Hg(II)
Humic Substances
Hydrogen-Ion Concentration
Iron
Mercury - chemistry
Mercury - radiation effects
Photochemical Processes
Photoreduction
Pollution
Water Pollutants - radiation effects
Water Purification - methods
Citations: Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The effects of algae (i.e., Chlorella vulgaris), Fe(III), humic substances, and pH on the photoreduction of Hg(II) under the irradiation of metal halide lamps ( λ ≥ 365 nm, 250 W) were investigated in this paper. The photoreduction rate of Hg(II) was found to increase with the increasing concentration of algae, Fe(III), and humic substances. The cooperation action of Fe(III) and humic substances accelerated the photoreduction of Hg(II). When the initial concentration of Hg(II) was in the range of 0.0–200.0 μg L −1 with initial algae concentrations 7.0 × 10 9 cells L −1 at pH 7.0, the initial photoreduction rate of Hg(II) could be expressed by the equation: −d C Hg(II)/d t = 0.65 × [ C Hg(II)] 0.39 with a correlation coefficient of R = 0.9912. The study on the photochemical process in terms of total mercury mass balance revealed that more than 40.86% of Hg(II) from the algal suspension was reduced to volatile metallic mercury. This paper discussed the photoreduction mechanism of Hg(II) in the presence of algae. This research will provide information for predicting the photoreduction of Hg(II) in the real environment. It will be helpful for understanding the photochemical transformation of Hg(II) and the formation of DGM in natural water in the presence of algae complexes. It will also be helpful for providing new methods to deal with heavy metal pollution.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2008.08.087