Article citationsMore>>
Ajaero, C., McMartin, D.W., Peru, K.M., Bailey, J., Haakensen, M., Friesen, V., Martz, R., Hughes, S.A., Brown, C., Chen, H., McKenna, A.M., Corilo, Y.E. and Headley, J.V. (2017) Fourier Transform Ion Cyclotron Resonance Mass Spectrometry Characterization of Athabasca Oil Sand Process-Affected Waters In-cubated in the Presence of Wetland Plants. Energy & Fuels, 31, 1731-1740.
https://doi.org/10.1021/acs.energyfuels.6b02643
has been cited by the following article:
-
TITLE:
Chitosan Biopolymers for Analysis of Organic Acids in Aquatic Environments of Treatment Wetlands
AUTHORS:
Mohamed H. Mohamed, Kerry M. Peru, John V. Headley, Lee D. Wilson
KEYWORDS:
Chitosan, Adsorbent, Organic Acid Contaminants, Sorption, Matrix Effects
JOURNAL NAME:
Journal of Geoscience and Environment Protection,
Vol.5 No.6,
July
21,
2017
ABSTRACT:
Herein, we report on the use of chitosan-based engineered materials for the sequestration of naphthenic acid fraction compounds (NAFCs) and other species (matrix) in oil sands process-affected water (OSPW) in order to improve monitoring of NAFCs after phytoremediation. Chitosan pellets (CPs) were cross linked with glutaraldehyde (GLU) at variable feed ratios and characterized using thermogravimetric analysis (TGA). Sorption studies at equilibrium and kinetic conditions were carried on OSPW extract, raw and treated wetland samples. The materials were shown to have similar sorption capacity for NAFCs but with variable selectivity of the species in the complex mixture. As well, the matrix uptake varied according to the type of OSPW. Overall, CP in its native form outperformed the cross linked CP pellets, as evidenced by a reduction in matrix effects.
Related Articles:
-
Ling Xin, Li Hou, Yue Zhou, Huiping Wang, Heming Yu
-
Jai Dev Chandel, Nand Lal Singh
-
José Lopes, Jorge Rocha, Luís Redondo, Francisco Alegria
-
Comlan de Souza, David W. Kammler
-
M. Charfeddine, Malek Gassoumi, H. Mosbahi, C. Gaquiére, M. A. Zaidi, H. Maaref