Organoclays have found increased acceptance as pre-treatment for activated carbon adsorption systems in both groundwater and wastewater cleanup. The reason is that activated carbon tends to become quickly blinded by large organic molecules of low solubility, particularly oils. However, it is also well established that activated carbon is more efficient at low concentrations of organic contaminants than at higher ones, i.e. at less than 1 ppm. With organoclays it is exactly the opposite, they are better at removing organics at higher concentrations, above 3 ppm. Therefore it is cost effective in these applications to use two or more vessels in series, the first one filled with organoclay, the remainder with activated carbon. The economics make sense, even though the organoclay is not regenerated, because of the reduction in down time every time a carbon vessel has to be changed out. Use of organoclays increases the volume treated by carbon in many applications seven to nine fold. In the case of other organic contaminants, as the aqueous solubility increases, the efficiency decreases, except in the case of methylene chloride, which it removes at far higher efficiency then carbon. This article presents the results of a series of tests, including Kd determinations, jar tests, and mini-column tests. These tests determined the adsorption capacity and efficiency of organoclay and activated carbon for the removal of benzene, toluene, xylene and naphtalene from water. These tests were followed by adding the four compounds into one container to see if the combination of organoclay, followed by carbon, would be more efficient then each sorbent alone. The tests also compared the efficiency of organoclay versus carbon for the removal of various oils from water.
[1]
S. Boyd,et al.
Clay-Organic Complexes as Adsorbents for Phenol and Chlorophenols
,
1986
.
[2]
George R. Alther,et al.
Organically modified clay removes oil from water
,
1995
.
[3]
F. Cartledge,et al.
Nonionic Organic Partitioning onto Organoclays
,
1993
.
[4]
W. H. Slabaugh,et al.
Solvent selectivity by an organoclay complex
,
1969
.
[5]
James A. Smith,et al.
Benzene transport through landfill liners containing organophilic bentonite
,
1994
.
[6]
E. R. Baumann,et al.
Interaction of Aliphatic Amines with Montmorillonite to Enhance Adsorption of Organic Pollutants
,
1985
.
[7]
M. M. Mortland.
Clay-Organic Complexes and Interactions
,
1970
.