1. IntroductionPre-treatment of cru

1. Introduction
Pre-treatment of crude palm oil (CPO) during a refining process
which involves degumming and bleaching, generates plentiful of
spent bleaching earth (SBE). Bleaching earth is a very fine powder
and its main component is silicon dioxide (∼57% and more
depending on the type). It is prepared by treating montmorillonite
clay (represented by Al2O3·4SiO2·nH2O) with mineral acids and by
eluting basic components such as aluminium, iron and magnesium.
Bleaching earth has been used to absorb dark colour matters and
odour-causing substances in crude oil and vegetable oil. It is estimated
that about 600,000 metric tonnes or more of bleaching earth
was utilized worldwide in the refining process based on the worldwide
production of more than 60 million tonnes of oils (Park et al.,
2004).
SBE is a discarded palm oil refinery (POR) waste containing a
high percentage of residual oil (∼20–40%) (Aziz et al., 2001; Loh
et al., 2006). Disposal of SBE by incineration, inclusion in animal
feeds, land filling method or concrete manufacturing is generally
practiced. Currently in Malaysia, the most common practice is disposal
at landfills – causing fire and pollution hazards due to the degradation of the residual oil in it, and the associated greenhouse
gas (GHG) emissions upon its disposal. In Japan, SBE has
been incinerated for cement manufacturing but there is difficulty
in maintaining good cement quality due to the high concentration
of oil in SBE (Park et al., 2004). In the near future, incineration or
landfill disposal will probably become impossible due to a stricter
environmental regulatory restriction, lack of new dump sites and
mostimportantly,the release of GHG to the atmosphere atlandfills.
The residual oil in SBE should ideally be recovered and re-used
for industrial applications in order to reduce cost in oil processing.
Adding value to the recovered residual oil is among the many
possible approaches to resolving the issue e.g. as feedstock for
biofuels (Loh et al., 2006), biolubricants (Loh et al., 2007), industrial
grade oleochemicals (Chanrai and Burde, 2004) and animal
feeds (Damodaran, 2008). Apparently, the de-oiled SBE without
any known applications was destined at landfill as required by
the local authorities. SBE without residual oil recovery can also
be used as feed material (Ng et al., 2006). Other attempts on
SBE utilization include regenerating SBE as adsorbents (Cheah and
Siew, 2004), fermenting oil-containing SBE to produce riboflavin
for use in medicine, food and fodder industries and recovering
riboflavin-free SBE-based soil conditioner without much evidence
given (Park et al., 2004). In recent years, waste clay and recycled
bentonite in either their original forms, or co-composted with rice
husk, rice husk ashes, chicken litter and other beneficial biomass or agriculture by-products as a soil amendment was extensively
researched (Arias-Estévez et al., 2007; Croker et al., 2004; Ho
et al., 2010; Soda et al., 2005; Wang et al., 2010). For example,
an organic-rich bentonite-based waste particularly generated
from the wineries was found as a suitable acid soil amendment to
facilitate soil–plant interaction for increased soil fertility, microbial
rejuvenation and biomass productivity at lower addition rates
(Nóvoa-Munoz ˜ et al., 2008). Besides, its negatively charged soil surface
can also immobilize heavy metals and pesticides in controlling
leaching of these contaminants into waterways (Bermúdez-Couso
et al., 2011; Pateiro-Moure et al., 2009).
To date, the PORs in Malaysia are still dumping SBE at landfills
because there are no available scientific solutions to address the
problem. Therefore,the main objective ofthe present study focused
on 100% recovery and conversion of SBE into a bio organic fertilizer
by co-composting it with some agricultural and palm oil milling
by-products. It was envisaged that the composted SBE possessed
good characteristics for soil remediation resulted in improvement
of crop productivity, and hence overcoming the low chemical fertilizer
application efficiency in agriculture that destroys mother
earth.Itprovides a total environment solutionto abate thepollution
problems created in the disposal of SBE.