REMOVAL OF HEAVY METALS FROM WATER BY WOOD-BASED LIGNOCELLULOCIS MATERIALS

Drinking water, particularly mine and industrial waters, may contain concentrations of heavy metals above the limits defined by the intended use. Therefore, hazardous heavy metals must be removed by water treatment, which in turn must satisfy the key criteria: to be efficient and inexpensive. The si...

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Bibliographic Details
Published in:WIT Transactions on Ecology and the Environment 2018-01, Vol.220, p.81
Main Author: Pesic, Batric
Format: Article
Language:English
Subjects:
Activated carbon
Adsorption
Cadmium
Cellulose
Cellulose esters
Chemical precipitation
Drinking water
Esterification
Heavy metals
Hydroxides
Kinetics
Metal concentrations
Metals
Mine waters
Organic chemistry
Sorbents
Water treatment
Wood
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Summary:Drinking water, particularly mine and industrial waters, may contain concentrations of heavy metals above the limits defined by the intended use. Therefore, hazardous heavy metals must be removed by water treatment, which in turn must satisfy the key criteria: to be efficient and inexpensive. The simplest method for treatment of mine and industrial waters is by chemical precipitation in the form of metal hydroxides. For treatment of drinking water, characterized by very low concentration of heavy metals, the adsorption on a solid support, such as activated carbon, is a common practice. The major deficiency of using activated carbon is the slow kinetics, low loading capacity, and high costs. For that reason, substantial research efforts are directed toward the use of natural sorbents, such as cellulose from wood. In this paper, the results will discuss the use of cellulose from wood for removal of cadmium from water of similar characteristics as drinking water. The other results will point to the treatment of water characterized with much higher concentrations of heavy metals, as found in mine waters. The adsorption studies were performed as a function of typical parameters: pH, concentration, temperature, etc. To enhance the sorption capacity and kinetics, the cellulose molecules were modified by esterification, which was found highly beneficial. Regarding the source of cellulose, several wood species were examined. Among these, cottonwood consistently showed superior performance.
ISSN:1746-448X
1743-3541
DOI:10.2495/WRM170081