Comparsion of biotransformation in oil palm frond and oil palm trunk into bioethanol / Rohayu Rajenun

Bioethanol is one of alternative energies that replace fossil fuel. Lignocellulose materials are good for bioethanol production. The primary feed stock for first generation of bioethanol is obtained from other starch crops such as com, wheat and sorghum. Onwards, bioethanol produced from materials s...

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Main Author: Rajenun, Rohayu
Format: Student Project
Language:English
Published: Faculty of Plantation and Agrotechnology 2016
Online Access:http://ir.uitm.edu.my/id/eprint/17481/
http://ir.uitm.edu.my/id/eprint/17481/2/PPb_ROHAYU%20RAJENUN%20AT%2016_5.pdf
id uitm-17481
recordtype eprints
spelling uitm-174812019-04-25T07:01:17Z http://ir.uitm.edu.my/id/eprint/17481/ Comparsion of biotransformation in oil palm frond and oil palm trunk into bioethanol / Rohayu Rajenun Rajenun, Rohayu Bioethanol is one of alternative energies that replace fossil fuel. Lignocellulose materials are good for bioethanol production. The primary feed stock for first generation of bioethanol is obtained from other starch crops such as com, wheat and sorghum. Onwards, bioethanol produced from materials such as cellulose or hemicelluloses are called second generation bioethanol. Several materials that have higher benefit to people are Oil Palm Frond (OPF) and Oil Palm Trunk (OPT). The change from OPF and OPT to second generation bioethanol requires several steps to be followed. For OPF, the substrate preparation, culture maintenance and inoculum preparation process. Then, it is followed by solid-substrate fermentation (SSF), fermentable sugars extraction and lastly ethanol fermentation. For OPT, there are 4 levels that be followed, it is Oil Palm Trunk sap extraction process, fermentation process, distillation process and lastly, purification process. The two materials chosen for this report are to determine the process of ethanol production. In addition, to find out the chemical composition between OPF and OPT and to compare between OPF and OPT in the percentage of ethanol yield. As a result, the ethanol yield will increased with increasing cellulose loading and higher percentage rate of Holocellulose and Cellulose influenced the rate of ethanol yield. Faculty of Plantation and Agrotechnology 2016 Student Project NonPeerReviewed text en http://ir.uitm.edu.my/id/eprint/17481/2/PPb_ROHAYU%20RAJENUN%20AT%2016_5.pdf Rajenun, Rohayu (2016) Comparsion of biotransformation in oil palm frond and oil palm trunk into bioethanol / Rohayu Rajenun. [Student Project] (Unpublished)
repository_type Digital Repository
institution_category Local University
institution Universiti Teknologi MARA
building UiTM Institutional Repository
collection Online Access
language English
description Bioethanol is one of alternative energies that replace fossil fuel. Lignocellulose materials are good for bioethanol production. The primary feed stock for first generation of bioethanol is obtained from other starch crops such as com, wheat and sorghum. Onwards, bioethanol produced from materials such as cellulose or hemicelluloses are called second generation bioethanol. Several materials that have higher benefit to people are Oil Palm Frond (OPF) and Oil Palm Trunk (OPT). The change from OPF and OPT to second generation bioethanol requires several steps to be followed. For OPF, the substrate preparation, culture maintenance and inoculum preparation process. Then, it is followed by solid-substrate fermentation (SSF), fermentable sugars extraction and lastly ethanol fermentation. For OPT, there are 4 levels that be followed, it is Oil Palm Trunk sap extraction process, fermentation process, distillation process and lastly, purification process. The two materials chosen for this report are to determine the process of ethanol production. In addition, to find out the chemical composition between OPF and OPT and to compare between OPF and OPT in the percentage of ethanol yield. As a result, the ethanol yield will increased with increasing cellulose loading and higher percentage rate of Holocellulose and Cellulose influenced the rate of ethanol yield.
format Student Project
author Rajenun, Rohayu
spellingShingle Rajenun, Rohayu
Comparsion of biotransformation in oil palm frond and oil palm trunk into bioethanol / Rohayu Rajenun
author_facet Rajenun, Rohayu
author_sort Rajenun, Rohayu
title Comparsion of biotransformation in oil palm frond and oil palm trunk into bioethanol / Rohayu Rajenun
title_short Comparsion of biotransformation in oil palm frond and oil palm trunk into bioethanol / Rohayu Rajenun
title_full Comparsion of biotransformation in oil palm frond and oil palm trunk into bioethanol / Rohayu Rajenun
title_fullStr Comparsion of biotransformation in oil palm frond and oil palm trunk into bioethanol / Rohayu Rajenun
title_full_unstemmed Comparsion of biotransformation in oil palm frond and oil palm trunk into bioethanol / Rohayu Rajenun
title_sort comparsion of biotransformation in oil palm frond and oil palm trunk into bioethanol / rohayu rajenun
publisher Faculty of Plantation and Agrotechnology
publishDate 2016
url http://ir.uitm.edu.my/id/eprint/17481/
http://ir.uitm.edu.my/id/eprint/17481/2/PPb_ROHAYU%20RAJENUN%20AT%2016_5.pdf
first_indexed 2023-09-18T22:58:25Z
last_indexed 2023-09-18T22:58:25Z
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