Comparative studies of bioethanol fuel production and engine emission from different rotten fruits biomasses / Hadeel Mustafa Al-Yamani
The unsustainable energy resources like fossil fuel are going to be depleted in the next few decades and the trends in biofuel production from biomass are gaining popularity to encounter the expected energy crisis in the world. Ethanol is the most widely used liquid biofuel and is produced as a r...
| Summary: | The unsustainable energy resources like fossil fuel are going to be depleted in the next few
decades and the trends in biofuel production from biomass are gaining popularity to encounter
the expected energy crisis in the world. Ethanol is the most widely used liquid biofuel and is
produced as a result of fermentation process from sugars, starches or cellulosie biomass including
fruit wastes. In this study rotten rambutan, mango, banana and pineapple fruits were utilized for
bioethanol production.
Rotten fruits were used to produce bioethanol by fermentation using yeast (Saccromyces
cerevisiae ). Different parameters including pH, TSS, glucose concentration, retention time and
ethanol production at different temperatures were studied. In addition to this, the study also
encompassed parameters such as parts of the fruits, optimum yeast concentration, enzymatic
digestion to facilitate the fermentation. A comparative study was made to compre the production
of biofuel from rambutan, mango, apple and banana. The highest bioethanol production was
obtained from experiments using 4g/L of yeast for 2 days producing bioethanol 9.4 (v/v)%. A
detailed analysis was made regarding reducing sugar contents using digital refrectometer, and
total soluble solid (TSS) were found to reduce after fermentation. The pH of the experimental
mixture was found to decrease as a result of the conversion of waste fruits into bioethanol. The
produced bioethanol was also subjected to a detailed chemical analysis of metal content (Fe, Pb,
Cu, Na, Mg, Ca, etc). The bioethanol obtained as a result of fermentation was subjected to an
engine test using multicylinder Proton Gen 2 engine and it revealed a remarkable reduction in the
production of hazardous gases (NOX) in the blends of bioethanol (E10, E5). The optimum values
for the parameters investigated were found to be 30°C, yeast concentration of 4g/L, pH 5-5.8 for
rotten fruit as compared to fresh fruit at fermentation time of 48 hours. In the enzymatic study using rotten fruits, commercial cellulase and amylase were used to hydrolyze the carbohydrates
into simple sugars which were then utilized by the yeast to produce bioethanol. The bioethanol
produced from rotten rambutan fruit was found to be of high quality, which can be utlized as a
fuel in the engine and met the ASTM standards with regards to emission standards, viscosity and
metal content. Hence, it is concluded that good quality bioethanol can be produced using rotten
rambutan, mango, banana and pineapple. |
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