Synthesis of Biomass-Derived
Activated Carbons and
Their Immobilization on Alginate Gels for the Simultaneous Removal
of Cr(VI), Cd(II), Pb(II), As(III), and Hg(II) from Water
posted on 2022-11-08, 15:49authored byAditya Kumar, Triparna Das, Ravindra Singh Thakur, Zeenat Fatima, Satgur Prasad, Nasreen G. Ansari, Devendra K. Patel
Low-cost alginate gels of activated carbons were prepared,
which
were derived from the peels of banana and sweet lime. The synthesized
carbon was activated and immobilized on alginate, producing its gel.
These gels were categorized according to their methods of drying,
in which air drying, freeze drying, and supercritical drying led to
the formation of xerogels, cryogels, and aerogels, respectively. The
gels were used for adsorption of heavy metals from their aqueous solution.
The heavy metals that were targeted for removal were Pb(II), Cd(II),
Cr(VI), As(III), and Hg(II). Among all the adsorbents, the alginate
cryogel of sweet lime-derived activated carbon (SLACC) showed the
highest removal percentage of heavy metals, and thus, it was used
for batch study. The adsorption of heavy metals by SLACC was checked
at different times, pH values, adsorbent doses, temperatures, and
adsorbate concentrations. The study revealed that the pseudo-second-order
model best described the kinetic study, while the adsorption followed
the Freundlich isotherm. SLACC showed maximum adsorption capacities
(qcal) of 3.71, 4.22, 20.04, 7.31, and
4.37 mg/g for Cr, Cd, Pb, As, and Hg, respectively, when 20 mg of
SLACC was used for the removal of 4 ppm concentration of the targeted
heavy metals from their 20 mL solution. Based on the thermodynamic
study, it was found that the adsorption was spontaneous and exothermic.
Furthermore, the adsorbent was also used on real water samples and
showed up to 90% removal efficiency for these targeted heavy metals.
SLACC was regenerated with 0.1 M ethylenediaminetetraacetic acid (EDTA)
solution and reused for five cycles, in which the percentage removal
of heavy metals was more than 50% till the fourth cycle. Furthermore,
the leaching study showed that no toxic elements had leached from
SLACC into water, making it a safe adsorbent.