Volume 2
Journal of Environmental Research
Page 64
JOINT EVENT
July 26-27, 2018 Rome, Italy
&
6
th
Edition of International Conference on
Water Pollution & Sewage Management
4
th
International Conference on
Pollution Control & Sustainable Environment
Elimination of fluoride ions from aqueous solutions with unmodified bentonite clay in batch reactor
Jihane Assaoui, Abdelmoula Kheribech
and
Zineb Hatim
Chouaïb Doukkali University, Morocco
T
he presence of excess fluoride ions in wastewater generated by different industrial activities has been acknowledged as a
major environmental problem worldwide. Groundwater is one the important sources of drinking water. The discharge of
industrial wastewater containing such as pollutant into the surface water would lead to groundwater pollution.The consumption
of this latter can be considered as the major path of human exposure. Various technologies have been reported in the literature
for fluoride removal from wastewaters to conquer the hazardous impacts generated by fluoride ions on the environment and
human health. In this study, the fluoride removal from wastewaters was carried out by adsorption on local available bentonite
clay obtained from the Northern part of Morocco using batch equilibrium experiments. The main aim of this study was on the
one hand, the evaluation of the adsorption potential of the unmodified bentonite clay for waste water defluoridation, and on
the other hand, the identification of the mechanism involved in the fluoride adsorption process. The compositional, structural
and textural characteristics of the natural bentonite clay were determined using accurate physicochemical and mineralogical
characterizations. The contents of fluoride ions in wastewater were determined by the potentiometric method with a fluoride-
specific ion electrode connected to a digital ion analyzer. Batch adsorption experiments were conducted at room temperature
to optimize various operational parameters such as contact time, initial fluoride concentration, adsorbent dose and initial pH
solution. It was observed that 30 min of contact time between the adsorbent and aqueous solution containing fluoride ions was
sufficient for attaining equilibrium. The maximum wastewater defluoridation (52.2%) was obtained under acidic conditions
(pH=2), and for 5 mg L
-1
and 2 g L
-1
of initial fluoride concentration and adsorbent dose, respectively. The experimental data
followed pseudo-second-order and fitted well into Freundlich adsorption, indicating multilayer adsorption with heterogeneous
energetic distribution of active sites and with interaction between adsorbed molecules.
Recent Publications
1. Bhatnagar A, Kumar E and Sillanpaa M(2011), Chemical Engineering Journal 171:811-840.
2. Vinati A, Mahanty B and Behera S K (2015) Applied Clay Science 114:340-348.
3. Wambu E W, Onindo C O, Ambusso W and Muthakia G K (2013) Clean Soil Air Water 41:340-348.
4. Zhang S, Lü Y, Lin X, Zhang Y and Su X(2015)Chemical Research in Chinese Universities 31:144-148.
5. Uddin M K (2017) A review on the adsorption of heavy metals by clay minerals, with special focus on the past decade.
Chemical Engineering Journal 308:438-462.
Biography
Jihane Assaoui is a PhD candidate at Chouaïb Doukkali University (El Jadida, Morocco) and Graduate Scholar supported by the Ministry of Higher Education,
Scientific Research and Professional Training (Enssup). Her research focuses on the treatment and purification of waste water by adsorption on synthetic and
especially natural materials that are recently considered as ecological solutions whose importance seems to increase with the awareness of environmental
protection. She completed her Master of Science degree in Analytical Chemistry, and a Bachelor of Physicochemical Analysis Methods from Chouaïb Doukkali
University. She presented her research in many countries including France and Morocco.
assaoui.j@ucd.ac.maJihane Assaoui et al., J Environ Res 2018, Volume: 2