Generally, bioethanol from EFB can

Generally, bioethanol from EFB can be produced via pretreatment of lignocellulose, hydrolysis/
saccharification of cellulose to produce simple fermentable sugars, fermentation of sugars to bioethanol and
product separation. EFB consists primarily of cellulose, hemicellulose, lignin, and ash which are associated with
each other. Many factors, e.g. lignin content, cellulose crystallinity, polymerization degree, moisture content and
available surface area limit the digestibility of the hemicellulose and cellulose present in the lignocellulosic
biomass, hence, the main constraint in bioconversion [4, 5]. To address this, proper pretreatment and
delignification process is necessary; enabling the breaking down of the complex structures of lignocelluloses,
reducing the lignin and hemicellulose contents vis-á-vis an increase in the pore size and surface area, thus
increasing the accessibility of cellulose for enzymatic digestion [6, 7, 8, 9]. In view of this, an effective
pretreatment process of EFB is undeniably very crucial if a highly hydrolysed sugars yield for the overall
improvement of bioethanol were to be pursued. Many studies in this area were conducted, but far none made
satisfactory progress on pretreatment.
In this study, we developed a pretreatment method for subsequent bioethanol production from EFB. A
combined chemical pretreatments - a dilute acid to remove hemicellulose and a few delignifying agents to
remove lignin - was attempted to enhance the cellulose proportion in the EFB prior to enzymatic hydrolysis. The
recovered hexose sugars after enzymatic hydrolysis was subsequently fermented using selected yeast strain to
produce bioethanol. The morphological and structural changes of EFB during each treatment were examined
using scanning electron microscope (SEM) to provide a better understanding on this improved bioconversion
method.