BET, FTIR, and RAMAN characterizations of activated carbon from waste oil fly ash
الملخص
Activated carbon (AC), a porous material with high pore volume, attracts increasing attention owing to
its potential applications in several fields. The development of a porous structure in AC marginally relies on both
the treatment methods and the type of precursor. Thus far, both renewable and nonrenewable precursor sources have
been used to synthesize AC with high surface area and pore volume. This study presents the synthesis of AC via
physicochemical treatment of waste oil fly ash (OFA), a waste material produced from power plants. The aim was to
produce AC by adding surface pores and surface functional groups to the basal plane of OFA. Toward this objective,
OFA was first chemically leached/activated with various combinations of H2 SO4 and H3PO4 , and then physically
activated with CO2 at 900 °C. The chemical activation step, synergistically combined with CO2 activation, resulted in
an increase of 24 times the specific surface area of the OFA. The maximum increase in surface area was obtained for
the sample physicochemically treated with 100% H2 SO4 . Moreover, the spectroscopic analysis confirmed the presence
of acid functional groups after the chemical treatment step. To explore the surface heterogeneity, adsorptive potential
distribution in terms of surface energy was also discussed as a function of the surface coverage. Following chemical
activation, the OFA surface became heterogeneous. A major portion of the AC showed surface energy in the range
of 40–50 erg/K, which was further increased as a result of physical activation at a higher temperature. Thus, the
synergism created by physicochemical activation resulted in a material with high surface area and pore volume, and
excellent adsorption characteristics. From the findings of this study, it was concluded that OFA is a cost-effective and
environmentally benign precursor for the synthesis of AC.
معرّف المصادر الموحد
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85085386340&doi=10.3906%2fKIM-1909-20&partnerID=40&md5=2376594c2485956d74b6d9248817d7d5المجموعات
- الهندسة الكيميائية [1174 items ]
- الأبحاث [499 items ]