Inaugural Lecture : Rejuvenation of an old crop :|broles of sago in the food and energy industries
Sago palm, while being secondary to oil-palm in its perception and application, is seen as the next crop that deserves prompt and proper attention. Much praise has been given to this palm, which can grows almost unaided and naturally in swamps and areas whereas inhabitable by other crops, withou...
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| Format: | Book |
| Language: | English |
| Published: |
Universiti Malaysia Sarawak, (UNIMAS)
2015
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| Online Access: | http://ir.unimas.my/id/eprint/10091/1/Inaugural%20Lecture%3B%20Rejuvenation%20of%20an%20old%20crop%2010pgs.pdf http://ir.unimas.my/id/eprint/10091/ |
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| Summary: | Sago palm, while being secondary to oil-palm in its perception and
application, is seen as the next crop that deserves prompt and proper
attention. Much praise has been given to this palm, which can grows almost
unaided and naturally in swamps and areas whereas inhabitable by other
crops, without serious requirements for fertilizers and pesticides. Also, the
palm is able to regenerate without the need for replanting through its
numerous suckers, hence providing a continuous supply of new and young
palms upon harvesting of the mother palm. Apart from the long wait upon
first planting, it is the world's highest producer of starch at 25tons/ha.
Concerted efforts are underway to shorten the 10 year maturity period, and
also to increase the starch yield. The starch has been shown to be easily
digestible by most enzymes for hydrolysis to glucose, the first step whereby
numerous other products can be generated. This includes sugars (mainly
glucose) that can be commercialized for public consumption or as the
substrate to produce lactic acid - which is an expensive base for the
biopolymer, preservatives and cosmetic industries. Other than that,
fermentation of the sago sugar into bioethanol is another option. While it is
highly uneconomical to produce bioethanol from starch due to the small
differences in the price of the raw material and the product, producing sugar
from sago hampas (separated from sago effluent) for the same purpose is
totally feasible. Systematic enzymatic treatments of the separated fibres can
generate fermentable sugars to a yield of about 40-50%. Using hampas will
cut the cost by almost 90% and concomitantly reduces environmental
pollution. While the starch extraction process has been shortened to less than
an hour in most modern factories in Sarawak to produce pure and dried
starch, the process itself still generates voluminous amount of effluent
containing some residual starch and fibres. Rather than perceived as a
problem, the effluent is recognized as a raw material to produce food through
the culture of micro-algae for production of protein or biodiesel. |
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