Optimization and kinetic parameter estimation of bioethanol production from freely available Sri Lankan fruits in batch fermentation
<p>Bioethanol is used in many countries as an alternative to gasoline, mainly due to better emission characteristics. Since Sri Lanka imports fuel for its whole transportation requirement, this research aims optimization and kinetic parameter estimation of bioethanol production from freely ava...
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Faculty of Science, University of Peradeniya, Sri Lanka
2020-09-01
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| Series: | Ceylon Journal of Science |
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| Online Access: | https://cjs.sljol.info/articles/7779 |
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doaj-f266fef063f6404a991ebfedf6c718ea2021-09-20T15:23:30ZengFaculty of Science, University of Peradeniya, Sri LankaCeylon Journal of Science2513-28142513-230X2020-09-0149328329110.4038/cjs.v49i3.77795819Optimization and kinetic parameter estimation of bioethanol production from freely available Sri Lankan fruits in batch fermentationI. W. Kularathne0A. C. Rathneweera1C. S. Kalpage2S. Rajapakshe3C. A. Gunathilaka4University of Peradeniya, PeradeniyaUniversity of Peradeniya, PeradeniyaUniversity of Peradeniya, PeradeniyaUniversity of Peradeniya, PeradeniyaUniversity of Peradeniya, Peradeniya<p>Bioethanol is used in many countries as an alternative to gasoline, mainly due to better emission characteristics. Since Sri Lanka imports fuel for its whole transportation requirement, this research aims optimization and kinetic parameter estimation of bioethanol production from freely available Sri Lankan fruit wastes in batch fermentation. Bioethanol production was carried out using three different freely available overripe fruits in Sri Lankan: banana (<em>Musa spp., </em>embul kesel variety), papaya <em>(Carica papaya) </em>and jackfruit (<em>Artocarpus heterophyllus)</em>. Kinetic evaluation of the fermentation process and optimization bioethanol yields were carried out by changing the type of fruits, type of microorganism (<em>Saccharomyces cerevisiae </em>and <em>Pseudomonas mendocino </em>(PM)), concentration of the substrate (1:1, 1:1.5, 1:2 w/w ratio of fruit and water), pH (4.3, 5.0, 5.7), and temperature (27, 32, 35<sup>0</sup>C). Estimation of the kinetic parameters was carried out using Monod and Modified Gompertz equations by fitting experimental data. Optimum parameters found for the fermentation of banana using PM microorganism were 1:1 (w/w) concentration at pH 5 and 35<sup>0</sup>C with a maximum bioethanol yield of 13 vol%. Experimental data were well fitted with Monod model and Gompertz model, with a higher regression coefficient of R2 99.81 and R2 > 99.37 respectively. Comparative to the reported, 12.8 vol% bioethanol yield from banana by fermentation using PM microorganism at room temperature a higher bioethanol yield of 13 vol% could be obtained by fermentating banana fruit mass using PM microorganism with 1:1 (w/w) concentration at pH 5 and 35<sup>0</sup>C temperature.</p>https://cjs.sljol.info/articles/7779fruit wastes, batch-fermentation, biofuel, kinetic modelling, optimization |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
I. W. Kularathne A. C. Rathneweera C. S. Kalpage S. Rajapakshe C. A. Gunathilaka |
| spellingShingle |
I. W. Kularathne A. C. Rathneweera C. S. Kalpage S. Rajapakshe C. A. Gunathilaka Optimization and kinetic parameter estimation of bioethanol production from freely available Sri Lankan fruits in batch fermentation Ceylon Journal of Science fruit wastes, batch-fermentation, biofuel, kinetic modelling, optimization |
| author_facet |
I. W. Kularathne A. C. Rathneweera C. S. Kalpage S. Rajapakshe C. A. Gunathilaka |
| author_sort |
I. W. Kularathne |
| title |
Optimization and kinetic parameter estimation of bioethanol production from freely available Sri Lankan fruits in batch fermentation |
| title_short |
Optimization and kinetic parameter estimation of bioethanol production from freely available Sri Lankan fruits in batch fermentation |
| title_full |
Optimization and kinetic parameter estimation of bioethanol production from freely available Sri Lankan fruits in batch fermentation |
| title_fullStr |
Optimization and kinetic parameter estimation of bioethanol production from freely available Sri Lankan fruits in batch fermentation |
| title_full_unstemmed |
Optimization and kinetic parameter estimation of bioethanol production from freely available Sri Lankan fruits in batch fermentation |
| title_sort |
optimization and kinetic parameter estimation of bioethanol production from freely available sri lankan fruits in batch fermentation |
| publisher |
Faculty of Science, University of Peradeniya, Sri Lanka |
| series |
Ceylon Journal of Science |
| issn |
2513-2814 2513-230X |
| publishDate |
2020-09-01 |
| description |
<p>Bioethanol is used in many countries as an alternative to gasoline, mainly due to better emission characteristics. Since Sri Lanka imports fuel for its whole transportation requirement, this research aims optimization and kinetic parameter estimation of bioethanol production from freely available Sri Lankan fruit wastes in batch fermentation. Bioethanol production was carried out using three different freely available overripe fruits in Sri Lankan: banana (<em>Musa spp., </em>embul kesel variety), papaya <em>(Carica papaya) </em>and jackfruit (<em>Artocarpus heterophyllus)</em>. Kinetic evaluation of the fermentation process and optimization bioethanol yields were carried out by changing the type of fruits, type of microorganism (<em>Saccharomyces cerevisiae </em>and <em>Pseudomonas mendocino </em>(PM)), concentration of the substrate (1:1, 1:1.5, 1:2 w/w ratio of fruit and water), pH (4.3, 5.0, 5.7), and temperature (27, 32, 35<sup>0</sup>C). Estimation of the kinetic parameters was carried out using Monod and Modified Gompertz equations by fitting experimental data. Optimum parameters found for the fermentation of banana using PM microorganism were 1:1 (w/w) concentration at pH 5 and 35<sup>0</sup>C with a maximum bioethanol yield of 13 vol%. Experimental data were well fitted with Monod model and Gompertz model, with a higher regression coefficient of R2 99.81 and R2 > 99.37 respectively. Comparative to the reported, 12.8 vol% bioethanol yield from banana by fermentation using PM microorganism at room temperature a higher bioethanol yield of 13 vol% could be obtained by fermentating banana fruit mass using PM microorganism with 1:1 (w/w) concentration at pH 5 and 35<sup>0</sup>C temperature.</p> |
| topic |
fruit wastes, batch-fermentation, biofuel, kinetic modelling, optimization |
| url |
https://cjs.sljol.info/articles/7779 |
| work_keys_str_mv |
AT iwkularathne optimizationandkineticparameterestimationofbioethanolproductionfromfreelyavailablesrilankanfruitsinbatchfermentation AT acrathneweera optimizationandkineticparameterestimationofbioethanolproductionfromfreelyavailablesrilankanfruitsinbatchfermentation AT cskalpage optimizationandkineticparameterestimationofbioethanolproductionfromfreelyavailablesrilankanfruitsinbatchfermentation AT srajapakshe optimizationandkineticparameterestimationofbioethanolproductionfromfreelyavailablesrilankanfruitsinbatchfermentation AT cagunathilaka optimizationandkineticparameterestimationofbioethanolproductionfromfreelyavailablesrilankanfruitsinbatchfermentation |
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