Increased bio-oil yield from Swietenia macrophylla seeds through microwave pretreatment and ultrasonic-assisted solvent extraction
Low recovery coupled with intensive energy requirement due to long processing time makes the potential of bio-oil production not seamlessly appreciated. In this study, the optimization of bio-oil yield from non-edible Swietenia macrophylla seeds through microwave pretreatment before ultrasonic-assis...
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2018-11-01
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| Series: | Sustainable Environment Research |
| Online Access: | http://www.sciencedirect.com/science/article/pii/S2468203918301031 |
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doaj-e582a55c4cda40e0b074498747add0482020-11-25T03:34:46ZengBMCSustainable Environment Research2468-20392018-11-01286430437Increased bio-oil yield from Swietenia macrophylla seeds through microwave pretreatment and ultrasonic-assisted solvent extractionRey P. Gumaling0Jay RE. Agusan1Neil Ven Cent R. Ellacer2Gretel Mary T. Abi Abi3Jasmin Roxatte P. Pajaron4Jose Rey Q. Joyno5Cherry Q. Joyno6Alexander L. Ido7Renato O. Arazo8College of Engineering and Technology, University of Science and Technology of Southern Philippines, Claveria 9004, PhilippinesCollege of Engineering and Technology, University of Science and Technology of Southern Philippines, Claveria 9004, PhilippinesCollege of Engineering and Technology, University of Science and Technology of Southern Philippines, Claveria 9004, PhilippinesCollege of Engineering and Technology, University of Science and Technology of Southern Philippines, Claveria 9004, PhilippinesCollege of Engineering and Technology, University of Science and Technology of Southern Philippines, Claveria 9004, PhilippinesCollege of Engineering and Technology, University of Science and Technology of Southern Philippines, Claveria 9004, PhilippinesCollege of Engineering and Technology, University of Science and Technology of Southern Philippines, Claveria 9004, PhilippinesCollege of Engineering and Technology, University of Science and Technology of Southern Philippines, Claveria 9004, PhilippinesCollege of Engineering and Technology, University of Science and Technology of Southern Philippines, Claveria 9004, Philippines; Project Development Office, University of Science and Technology of Southern Philippines, Claveria 9004, Philippines; Corresponding author. College of Engineering and Technology, University of Science and Technology of Southern Philippines, Claveria 9004, Philippines.Low recovery coupled with intensive energy requirement due to long processing time makes the potential of bio-oil production not seamlessly appreciated. In this study, the optimization of bio-oil yield from non-edible Swietenia macrophylla seeds through microwave pretreatment before ultrasonic-assisted solvent extraction was investigated. Central composite design of response surface methodology was employed to analyze the effects to the bio-oil yield of the irradiation time (4–8 min) and irradiation power (90–450 W) as pretreatment variables using a microwave oven at 2.45 GHz frequency. Results showed that microwave pretreatment significantly increased the bio-oil yield by 5% with optimum recovery of 43% at shortened pretreatment time of 7 min instead of 6 h in the conventional oven heating method. The bio-oil yield increased when the irradiation time was increased, while irradiation power showed no significant effect. Analysis of the produced bio-oil through Fourier Transform Infrared Radiation spectroscopy identified similar functional groups present both in the extracted bio-oils from the microwave and the conventional pretreated seeds indicating that the former pretreatment, like the latter, did not destruct the compounds present in the seeds. The study demonstrated that the seeds of S. macrophylla have strong potential for bio-oil production and poise huge implications to the future of liquid biofuel and chemical industries. Keywords: Swietenia macrophylla, Microwave pretreatment, Oil extraction, Optimization, Response surface methodologyhttp://www.sciencedirect.com/science/article/pii/S2468203918301031 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Rey P. Gumaling Jay RE. Agusan Neil Ven Cent R. Ellacer Gretel Mary T. Abi Abi Jasmin Roxatte P. Pajaron Jose Rey Q. Joyno Cherry Q. Joyno Alexander L. Ido Renato O. Arazo |
| spellingShingle |
Rey P. Gumaling Jay RE. Agusan Neil Ven Cent R. Ellacer Gretel Mary T. Abi Abi Jasmin Roxatte P. Pajaron Jose Rey Q. Joyno Cherry Q. Joyno Alexander L. Ido Renato O. Arazo Increased bio-oil yield from Swietenia macrophylla seeds through microwave pretreatment and ultrasonic-assisted solvent extraction Sustainable Environment Research |
| author_facet |
Rey P. Gumaling Jay RE. Agusan Neil Ven Cent R. Ellacer Gretel Mary T. Abi Abi Jasmin Roxatte P. Pajaron Jose Rey Q. Joyno Cherry Q. Joyno Alexander L. Ido Renato O. Arazo |
| author_sort |
Rey P. Gumaling |
| title |
Increased bio-oil yield from Swietenia macrophylla seeds through microwave pretreatment and ultrasonic-assisted solvent extraction |
| title_short |
Increased bio-oil yield from Swietenia macrophylla seeds through microwave pretreatment and ultrasonic-assisted solvent extraction |
| title_full |
Increased bio-oil yield from Swietenia macrophylla seeds through microwave pretreatment and ultrasonic-assisted solvent extraction |
| title_fullStr |
Increased bio-oil yield from Swietenia macrophylla seeds through microwave pretreatment and ultrasonic-assisted solvent extraction |
| title_full_unstemmed |
Increased bio-oil yield from Swietenia macrophylla seeds through microwave pretreatment and ultrasonic-assisted solvent extraction |
| title_sort |
increased bio-oil yield from swietenia macrophylla seeds through microwave pretreatment and ultrasonic-assisted solvent extraction |
| publisher |
BMC |
| series |
Sustainable Environment Research |
| issn |
2468-2039 |
| publishDate |
2018-11-01 |
| description |
Low recovery coupled with intensive energy requirement due to long processing time makes the potential of bio-oil production not seamlessly appreciated. In this study, the optimization of bio-oil yield from non-edible Swietenia macrophylla seeds through microwave pretreatment before ultrasonic-assisted solvent extraction was investigated. Central composite design of response surface methodology was employed to analyze the effects to the bio-oil yield of the irradiation time (4–8 min) and irradiation power (90–450 W) as pretreatment variables using a microwave oven at 2.45 GHz frequency. Results showed that microwave pretreatment significantly increased the bio-oil yield by 5% with optimum recovery of 43% at shortened pretreatment time of 7 min instead of 6 h in the conventional oven heating method. The bio-oil yield increased when the irradiation time was increased, while irradiation power showed no significant effect. Analysis of the produced bio-oil through Fourier Transform Infrared Radiation spectroscopy identified similar functional groups present both in the extracted bio-oils from the microwave and the conventional pretreated seeds indicating that the former pretreatment, like the latter, did not destruct the compounds present in the seeds. The study demonstrated that the seeds of S. macrophylla have strong potential for bio-oil production and poise huge implications to the future of liquid biofuel and chemical industries. Keywords: Swietenia macrophylla, Microwave pretreatment, Oil extraction, Optimization, Response surface methodology |
| url |
http://www.sciencedirect.com/science/article/pii/S2468203918301031 |
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