Production process and optimization of solid bioethanol from empty fruit bunches of palm oil using response surface methodology
This study aimed to observe the potential of solid bioethanol as an alternative fuel with high caloric value. The solid bioethanol was produced from liquid bioethanol, which was obtained from the synthesis of oil palm empty fruit bunches (PEFBs) through the delignification process by using organosol...
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my.uniten.dspace-249232023-05-29T15:28:55Z Production process and optimization of solid bioethanol from empty fruit bunches of palm oil using response surface methodology Nurfahmi Mofijur M. Ong H.C. Jan B.M. Kusumo F. Sebayang A.H. Husin H. Silitonga A.S. Mahlia T.M.I. Rahman S.M.A. 57191361708 57204492012 55310784800 23004853200 56611974900 39262519300 26428224700 39262559400 56997615100 57201359295 This study aimed to observe the potential of solid bioethanol as an alternative fuel with high caloric value. The solid bioethanol was produced from liquid bioethanol, which was obtained from the synthesis of oil palm empty fruit bunches (PEFBs) through the delignification process by using organosolv pretreatment and enzymatic hydrolysis. Enzymatic hydrolysis was conducted using enzyme (60 FPUg-1 of cellulose) at a variety of temperatures (35 �C, 70 �C, and 90 �C) and reaction times (2, 6, 12, 18, and 24 h) in order to obtain a high sugar yield. The highest sugars were yielded at the temperature of 90 �C for 48 h (152.51 mg/L). Furthermore, fermentation was conducted using Saccharomyces cerevisiae. The bioethanol yield after fermentation was 62.29 mg/L. Bioethanol was extracted by distillation process to obtain solid bioethanol. The solid bioethanol was produced by using stearic acid as the additive. In order to get high-quality solid bioethanol, the calorific value was optimized using the response surface methodology (RSM) model. This model provided the factor variables of bioethanol concentration (vol %), stearic acid (g), and bioethanol (mL) with a minus result error. The highest calorific value was obtained with 7 g stearic acid and 5 mL bioethanol (43.17 MJ/kg). Burning time was tested to observe the quality of the solid bioethanol. The highest calorific value resulted in the longest burning time. The solid bioethanol has a potential as solid fuel due to the significantly higher calorific value compared to the liquid bioethanol. � 2019 by the authors. Final 2023-05-29T07:28:54Z 2023-05-29T07:28:54Z 2019 Article 10.3390/pr7100715 2-s2.0-85074222797 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85074222797&doi=10.3390%2fpr7100715&partnerID=40&md5=ccd6767193b9d5e87a7727c9dee0401a https://irepository.uniten.edu.my/handle/123456789/24923 7 10 715 All Open Access, Gold, Green MDPI AG Scopus |
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This study aimed to observe the potential of solid bioethanol as an alternative fuel with high caloric value. The solid bioethanol was produced from liquid bioethanol, which was obtained from the synthesis of oil palm empty fruit bunches (PEFBs) through the delignification process by using organosolv pretreatment and enzymatic hydrolysis. Enzymatic hydrolysis was conducted using enzyme (60 FPUg-1 of cellulose) at a variety of temperatures (35 �C, 70 �C, and 90 �C) and reaction times (2, 6, 12, 18, and 24 h) in order to obtain a high sugar yield. The highest sugars were yielded at the temperature of 90 �C for 48 h (152.51 mg/L). Furthermore, fermentation was conducted using Saccharomyces cerevisiae. The bioethanol yield after fermentation was 62.29 mg/L. Bioethanol was extracted by distillation process to obtain solid bioethanol. The solid bioethanol was produced by using stearic acid as the additive. In order to get high-quality solid bioethanol, the calorific value was optimized using the response surface methodology (RSM) model. This model provided the factor variables of bioethanol concentration (vol %), stearic acid (g), and bioethanol (mL) with a minus result error. The highest calorific value was obtained with 7 g stearic acid and 5 mL bioethanol (43.17 MJ/kg). Burning time was tested to observe the quality of the solid bioethanol. The highest calorific value resulted in the longest burning time. The solid bioethanol has a potential as solid fuel due to the significantly higher calorific value compared to the liquid bioethanol. � 2019 by the authors. |
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57191361708 |
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57191361708 Nurfahmi Mofijur M. Ong H.C. Jan B.M. Kusumo F. Sebayang A.H. Husin H. Silitonga A.S. Mahlia T.M.I. Rahman S.M.A. |
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author |
Nurfahmi Mofijur M. Ong H.C. Jan B.M. Kusumo F. Sebayang A.H. Husin H. Silitonga A.S. Mahlia T.M.I. Rahman S.M.A. |
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Nurfahmi Mofijur M. Ong H.C. Jan B.M. Kusumo F. Sebayang A.H. Husin H. Silitonga A.S. Mahlia T.M.I. Rahman S.M.A. Production process and optimization of solid bioethanol from empty fruit bunches of palm oil using response surface methodology |
author_sort |
Nurfahmi |
title |
Production process and optimization of solid bioethanol from empty fruit bunches of palm oil using response surface methodology |
title_short |
Production process and optimization of solid bioethanol from empty fruit bunches of palm oil using response surface methodology |
title_full |
Production process and optimization of solid bioethanol from empty fruit bunches of palm oil using response surface methodology |
title_fullStr |
Production process and optimization of solid bioethanol from empty fruit bunches of palm oil using response surface methodology |
title_full_unstemmed |
Production process and optimization of solid bioethanol from empty fruit bunches of palm oil using response surface methodology |
title_sort |
production process and optimization of solid bioethanol from empty fruit bunches of palm oil using response surface methodology |
publisher |
MDPI AG |
publishDate |
2023 |
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1806424224825344000 |