dc.description.abstract |
In this work, the removal of eight ionic liquids (ILs) of types of bromide based
imidazolium, pyrrolidinium and pyridinium having different alkyl chain lengths, two
dyes (nylosan red N-2RBL, palatine orange) and copper from simulated waste water
were investigated. Three adsorbent systems were used depending upon the type of
adsorbate. These systems include inorganic system based on activated carbon (AC)
and polymer based system including both natural and synthetic polymer. Two types of
activated carbons (ACs), fabric and granulated, were used. The granulated activated
carbon was further modified using nitric acid and sodium hypochlorite as oxidizing
agents, to enhance the oxygenated functional groups on AC. They were well
characterized in terms of surface chemistry by “Boehm” titrations and pH of point of
zero charge measurements and porosity by N2 adsorption at 77 K and CO2 adsorption
at 273 K. Upon modification, AC contained carboxylic, lectonic, and phenolic type’s
functionality. The adsorptions of ILs on these ACs were studied at different
temperatures (25-55 °C) and pH range. Thermodynamic studies indicated that the
adsorption of ILs onto ACs was an exothermic process. Their removal efficiency
increased with increase in alkyl chain length, which was due to the increase in
hydrophobicity of long chain ILs cations determined with the evolution of the
calculated octanol–water constant (Kow) and negative values of free energies indicated
its spontaneous nature.
The 2nd adsorption system used in this work was based on polymer membranes
prepared from chitosan (CS). The chitosan was mixed with two different amount of
poly vinyl alcohol (PVA) and chemically crosslinked by using a new crosslinking
agent i.e. methyltrimethoxysilane (MTMS). The crosslinked CS/PVA membranes
showed hydrogel properties and swelling was decreased with increase in PVA
content. Infrared spectroscopy confirmed the crosslinking reaction between the feed
components and the existence of siloxane bond. The membrane swelling was greatly
affected by pH, ionic strength and temperature of the solution. These membranes
showed high swelling in acidic and low swelling in basic pH range. This switchable
pH response of these membranes was exploited and used to adsorb dyes from aqueous
solution. The effect of dye concentration, contact time, adsorbent amount and pH on
the selectivity and sensitivity of the removal process was investigated. The pH of
solution greatly affected the removal efficiency and maximum adsorption was
observed at pH 3. Thermodynamic parameters suggested that the dyes adsorption on
the membrane was spontaneous and the process was endothermic. The effect of time,
pH and salt concentration on swelling were investigated. The high adsorption of dyes
in acidic media is very useful because most of textile effluents in acidic pH range and
the membranes are quite suitable for such type of system. In 3rd system, acrylic acid
was polymerized by gamma radiations in the presence of phenyltriethoxysilane
(PTES). Different amounts of PTES were incorporated in acrylic acid and irradiated
at different doses upto maximum of 30 kGy. The crosslinked poly (acrylic acid)
(PAA) showed hydrogel properties and adsorb maximum of 246 g.g-1 of water. The
increased PTES concentration decreased the EDS of the PAA hydrogels.
Thermogravimetric analysis showed an increase in the stability of the hydrogels
having high PTES content. The swelling of the hydrogel affected by pH, ionic
strength and temperature. These hydrogels showed low swelling in acidic and basic
pH range and high swelling around neutral pH. The adsorption of copper onto these
hydrogels was studied. The pH of solution greatly affected the removal efficiency and
maximum adsorption was achieved at pH 3. The effect of contact time, dye
concentration, adsorbent amount and pH on the selectivity and sensitivity of the
removal process was investigated.
All the data of ionic liquids, dyes and copper metal were analyzed by applying
different kinetics models such as: pseudo-first order and pseudo-second order,
models, diffusion law and Boyd law. The equilibrium adsorption capacities of the
adsorbent for all adsorbates removal were measured and the experimental data was
analyzed by applying adsorption model such as: Langmuir, Freundlich and Langmuir
Freundlich isotherm models. |
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