Optimization of ultrasound-assisted oil extraction from Carica candamarcensis

This study focuses on the optimization of ultrasound-assisted oil extraction from Carica candamarcensis seed using response surface methodology. The process parameters considered were extraction time (30�60 min), ultrasound amplitude level (20�40%), and solvent to seed ratio (10�20 mL/g). These were...

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Main Authors: Sebayang A.H., Ideris F., Silitonga A.S., Shamsuddin A.H., Zamri M.F.M.A., Pulungan M.A., Siahaan S., Alfansury M., Kusumo F., Milano J.
Other Authors: 39262519300
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Published: Elsevier Ltd 2024
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spelling my.uniten.dspace-342252024-10-14T11:18:31Z Optimization of ultrasound-assisted oil extraction from Carica candamarcensis A potential Oleaginous tropical seed oil for biodiesel production Sebayang A.H. Ideris F. Silitonga A.S. Shamsuddin A.H. Zamri M.F.M.A. Pulungan M.A. Siahaan S. Alfansury M. Kusumo F. Milano J. 39262519300 7801415444 39262559400 35779071900 57354218900 57407281500 58223412300 57217192433 56611974900 57052617200 Alternative fuel Biodiesel Box-Behnken design Carica candamarcensis Response surface methodology Ultrasound-assisted transesterification Extraction Fatty acids Gas chromatography Oils and fats Physicochemical properties Potassium hydroxide Regression analysis Surface properties Transesterification Tropics Ultrasonics Biodiesel production Box-Behnken design Carica candamarcensis Oil extraction Optimisations Physicochemical property Process parameters Response-surface methodology Transesterifications Ultrasound-assisted transesterification biofuel catalysis catalyst dicotyledon experimental study extraction method fatty acid physicochemical property solvent Biodiesel This study focuses on the optimization of ultrasound-assisted oil extraction from Carica candamarcensis seed using response surface methodology. The process parameters considered were extraction time (30�60 min), ultrasound amplitude level (20�40%), and solvent to seed ratio (10�20 mL/g). These were varied as suggested by Box-Behnken experimental model. Optimum values of these process parameters were given by the regression model, with the corresponding extraction yield. The model was validated experimentally to ensure its reliability. Physicochemical properties and fatty acid compositions of the extracted oil were evaluated accordingly. Furthermore, the extracted oil was then converted into biodiesel via ultrasound-assisted transesterification, using potassium hydroxide as the catalyst. FAME contents of the produced biodiesel were measured using gas chromatography. In addition, physicochemical properties of the biodiesel were also determined accordingly. Hence, findings from this study would be beneficial in further exploration on the usage of Carica candamarcensis as a potential feedstock for biodiesel production. � 2023 Elsevier Ltd Final 2024-10-14T03:18:31Z 2024-10-14T03:18:31Z 2023 Article 10.1016/j.renene.2023.04.099 2-s2.0-85156222609 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85156222609&doi=10.1016%2fj.renene.2023.04.099&partnerID=40&md5=6cb216884e179b43354b2dd48bfa0d84 https://irepository.uniten.edu.my/handle/123456789/34225 211 434 444 Elsevier Ltd Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Alternative fuel
Biodiesel
Box-Behnken design
Carica candamarcensis
Response surface methodology
Ultrasound-assisted transesterification
Extraction
Fatty acids
Gas chromatography
Oils and fats
Physicochemical properties
Potassium hydroxide
Regression analysis
Surface properties
Transesterification
Tropics
Ultrasonics
Biodiesel production
Box-Behnken design
Carica candamarcensis
Oil extraction
Optimisations
Physicochemical property
Process parameters
Response-surface methodology
Transesterifications
Ultrasound-assisted transesterification
biofuel
catalysis
catalyst
dicotyledon
experimental study
extraction method
fatty acid
physicochemical property
solvent
Biodiesel
spellingShingle Alternative fuel
Biodiesel
Box-Behnken design
Carica candamarcensis
Response surface methodology
Ultrasound-assisted transesterification
Extraction
Fatty acids
Gas chromatography
Oils and fats
Physicochemical properties
Potassium hydroxide
Regression analysis
Surface properties
Transesterification
Tropics
Ultrasonics
Biodiesel production
Box-Behnken design
Carica candamarcensis
Oil extraction
Optimisations
Physicochemical property
Process parameters
Response-surface methodology
Transesterifications
Ultrasound-assisted transesterification
biofuel
catalysis
catalyst
dicotyledon
experimental study
extraction method
fatty acid
physicochemical property
solvent
Biodiesel
Sebayang A.H.
Ideris F.
Silitonga A.S.
Shamsuddin A.H.
Zamri M.F.M.A.
Pulungan M.A.
Siahaan S.
Alfansury M.
Kusumo F.
Milano J.
Optimization of ultrasound-assisted oil extraction from Carica candamarcensis
description This study focuses on the optimization of ultrasound-assisted oil extraction from Carica candamarcensis seed using response surface methodology. The process parameters considered were extraction time (30�60 min), ultrasound amplitude level (20�40%), and solvent to seed ratio (10�20 mL/g). These were varied as suggested by Box-Behnken experimental model. Optimum values of these process parameters were given by the regression model, with the corresponding extraction yield. The model was validated experimentally to ensure its reliability. Physicochemical properties and fatty acid compositions of the extracted oil were evaluated accordingly. Furthermore, the extracted oil was then converted into biodiesel via ultrasound-assisted transesterification, using potassium hydroxide as the catalyst. FAME contents of the produced biodiesel were measured using gas chromatography. In addition, physicochemical properties of the biodiesel were also determined accordingly. Hence, findings from this study would be beneficial in further exploration on the usage of Carica candamarcensis as a potential feedstock for biodiesel production. � 2023 Elsevier Ltd
author2 39262519300
author_facet 39262519300
Sebayang A.H.
Ideris F.
Silitonga A.S.
Shamsuddin A.H.
Zamri M.F.M.A.
Pulungan M.A.
Siahaan S.
Alfansury M.
Kusumo F.
Milano J.
format Article
author Sebayang A.H.
Ideris F.
Silitonga A.S.
Shamsuddin A.H.
Zamri M.F.M.A.
Pulungan M.A.
Siahaan S.
Alfansury M.
Kusumo F.
Milano J.
author_sort Sebayang A.H.
title Optimization of ultrasound-assisted oil extraction from Carica candamarcensis
title_short Optimization of ultrasound-assisted oil extraction from Carica candamarcensis
title_full Optimization of ultrasound-assisted oil extraction from Carica candamarcensis
title_fullStr Optimization of ultrasound-assisted oil extraction from Carica candamarcensis
title_full_unstemmed Optimization of ultrasound-assisted oil extraction from Carica candamarcensis
title_sort optimization of ultrasound-assisted oil extraction from carica candamarcensis
publisher Elsevier Ltd
publishDate 2024
_version_ 1814061046678159360
score 13.222552