Abstract
This article reports the deliverables of the experimental study on the production of a completely renewable biofuel from Manilkara zapota fruit and seed oil. It was attempted to synthesis ethyl ester from Manilkara zapota seed oil using bioethanol synthesized from decayed Manilkara zapota fruit. Bioethanol was produced through fermentation of decayed Manilkara zapota fruit, waste skin, and pulp with Saccharomyces cerevisiae and then distilled at 72°C. The bioethanol yield was noted as 10.45% (v/w). The 95.09% pure bioethanol and 4.9% water molecules were present in the distilled sample. Mechanically extracted raw Manilkara zapota seed oil was used for ethyl ester conversion. The molar ratio of bioethanol to oil, the quantity of KOH, and process temperature were investigated for the maximum yield of Manilkara zapota ethyl ester. A 9:1 molar ratio of bioethanol to oil, 1.5% (w/w) KOH, and 70°C process temperature were identified as enhanced ethanolysis process parameters. The maximum yield of ethyl ester was identified as 93.1%. Physicochemical characteristics of Manilkara zapota oil, bioethanol, and ethyl ester were measured as per the corresponding ASTM standards. It was found that both Manilkara Zapota ethyl ester and bioethanol synthesized from decayed Manilkara zapota fruit could be promising substitutes for fossil diesel and gasoline.
Highlights
Biodiesel, a mono-alkyl ester has been produced from many resources by many researchers
It was attempted to produce fatty acid ethyl ester from Manilkara zapota seed oil using bioethanol synthesized from decayed Manilkara zapota fruit
Bioethanol was produced through fermentation of decayed Manilkara zapota fruit, waste skin, and pulp with Saccharomyces cerevisiae extracted by distillation process at the temperature of 72°C
Summary
A mono-alkyl ester has been produced from many resources by many researchers. Fruit skins and waste pulps from Manilkara zapota pulp, jam, and juice industries are thrown into garbage yard These decayed fruit waste thrown into the garbage yard are underutilized and can be used as a potential growth medium for yeast strain, which could be a better resource for bio-ethanol production. No literature contribution has been found on ethyl ester production using zapota seed oil with bioethanol synthesized from Manilkara zapota fruit. This experimental research work aimed to study the utilization of valueless decayed Manilkara zapota fruit wastes from the cultivation field and pulp industries as a substrate to produce value added bioethanol through the fermentation process using Saccharomyces cerevisiae (baker's yeast) followed by the distillation process. Characterization of the produced bioethanol and biodiesel for quality checking has been carried out and reported in this article
Sign-in/Register to view highlights & summary 
Submitted Version (
Free)
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call