PHYSICO-CHEMICAL PROPERTIES OF PALM OIL FUEL ASH AS COMPOSITE SORBENT IN KAOLIN LANDFILL LINER SYSTEM
Main Article Content
Abstract
This paper presents information on the physicochemical properties of palm oil fuel ash (POFA) a
biomass residue, while justifying its use as composite
sorbent when pre-mixed with kaolin, for the purpose of
designing sanitary landfill liner. Physical analysis
conducted includes particle size distribution and
density tests for the ground ash. Chemical tests include
Energy Dispersive X-Ray diffractometer (XRD),
Energy Dispersive X-ray Fluorescence (EDXRF).
Other chemical tests conducted are the specific surface
area (SSA); using Particle size analyzer (PSA), scanned
electron microscope (SEM), mass loss on ignition
(LOI), at 440 250C, for a period of 4 h. The pHvalue for POFA- aqueous environment was also
determined. Quantity of Silica oxide (SiO2) present in
the ground ash was found to be 52.35 %. The
summation of SiO2, Al2O3, and Fe2O3 present in the
POFA was approximated to 72 %, while the inherited
calcium oxide (CaO-lime) was approximated to 12 %.
Both percentages classify the POFA as a Class C fly
ash. Exchangeable cations detected include Na2+, K2+,
Ca2+ and Mg2+. Morphological analysis conducted also
shows that the ground POFA was amorphous in
structure. From these properties inferences were
anticipated on the expected chemical reactions of the
kaolin-POFA mixture for the design of composite
sanitary landfill liner. The novel material is hoped to
provide a more efficient chemical trapping mechanism
of toxic heavy metal ions released from solid wastes
that are been dumped in landfills. Conclusively, it is
anticipated that POFA a bio-sorbent may be suitably
used as composite sorbent for improvement on kaolin
designed as lower component of engineered sanitary
landfill liner.