Photoesterification of Waste Cooking Oil using ZnO Doped Empty Fruit Bunches Ash Heterogeneous Catalyst
Introduction: Waste from the palm oil industry, such as empty fruit bunch ash (EFBA) and palm oil mill effluents (POME), is a type of biomass created during the production of palm oil and produced in vast quantities. Due to the massive amounts of empty fruit bunch ash produced because of the exponen...
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2024
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2-s2.0-85196911404 Shohaimi N.A.M.; Adnan N.K.; Ibrahim S.F. Photoesterification of Waste Cooking Oil using ZnO Doped Empty Fruit Bunches Ash Heterogeneous Catalyst 2024 Recent Innovations in Chemical Engineering 17 2 10.2174/0124055204293369240221044511 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85196911404&doi=10.2174%2f0124055204293369240221044511&partnerID=40&md5=6ac942837b88a0f33a562c5365672ae2 Introduction: Waste from the palm oil industry, such as empty fruit bunch ash (EFBA) and palm oil mill effluents (POME), is a type of biomass created during the production of palm oil and produced in vast quantities. Due to the massive amounts of empty fruit bunch ash produced because of the exponential rise in worldwide palm oil production, major plantations are having trouble disposing of them. Aim: The purpose of this research is to study the effectiveness of the ZnO-EFBA catalyst under visible light irradiation for the photoesterification reaction and its physicochemical properties of the photocatalyst that will be determined using TGA, SEMEDX, XRD and BET. Method: The biodiesel will be produced by using two steps which are photoesterification to reduce the FFA value in WCO and followed by transesterification to produce FAMEs. The photoesterification reactions were conducted using WCO under visible light irradiation. Various parameters were examined, including different reaction times of 1 to 4 hours, different methanol to oil molar ratios of 12:1, 14:1, 16:1, and 18:1, and different ZnO-EFBA catalyst loadings ranging from 0 wt.% to 8 wt.%. The obtained results demonstrated that each WCO sample has a different optimum condition in the photoesterification reaction. Moreover, it was observed that lower FFA values correlated with higher biodiesel conversion rates in the transesterification reaction with 79.06%, 77.72% and 73.33% for samples 1, 2 and 3, respectively. Result: By using EFBA as a heterogeneous catalyst doped with ZnO in the manufacturing of biodiesel, it helps to reduce the waste that the palm oil industry creates, limiting the adverse effects on human health and environmental harm. Furthermore, biodiesel is a renewable, clean-burning alternative to petroleum fuel, which is domestically manufactured. Conclusion: The use of biodiesel as a vehicle fuel boosts energy security, enhances the environment and air quality, and offers safety advantages. © 2024 Bentham Science Publishers. Bentham Science Publishers 24055204 English Article |
author |
Shohaimi N.A.M.; Adnan N.K.; Ibrahim S.F. |
spellingShingle |
Shohaimi N.A.M.; Adnan N.K.; Ibrahim S.F. Photoesterification of Waste Cooking Oil using ZnO Doped Empty Fruit Bunches Ash Heterogeneous Catalyst |
author_facet |
Shohaimi N.A.M.; Adnan N.K.; Ibrahim S.F. |
author_sort |
Shohaimi N.A.M.; Adnan N.K.; Ibrahim S.F. |
title |
Photoesterification of Waste Cooking Oil using ZnO Doped Empty Fruit Bunches Ash Heterogeneous Catalyst |
title_short |
Photoesterification of Waste Cooking Oil using ZnO Doped Empty Fruit Bunches Ash Heterogeneous Catalyst |
title_full |
Photoesterification of Waste Cooking Oil using ZnO Doped Empty Fruit Bunches Ash Heterogeneous Catalyst |
title_fullStr |
Photoesterification of Waste Cooking Oil using ZnO Doped Empty Fruit Bunches Ash Heterogeneous Catalyst |
title_full_unstemmed |
Photoesterification of Waste Cooking Oil using ZnO Doped Empty Fruit Bunches Ash Heterogeneous Catalyst |
title_sort |
Photoesterification of Waste Cooking Oil using ZnO Doped Empty Fruit Bunches Ash Heterogeneous Catalyst |
publishDate |
2024 |
container_title |
Recent Innovations in Chemical Engineering |
container_volume |
17 |
container_issue |
2 |
doi_str_mv |
10.2174/0124055204293369240221044511 |
url |
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85196911404&doi=10.2174%2f0124055204293369240221044511&partnerID=40&md5=6ac942837b88a0f33a562c5365672ae2 |
description |
Introduction: Waste from the palm oil industry, such as empty fruit bunch ash (EFBA) and palm oil mill effluents (POME), is a type of biomass created during the production of palm oil and produced in vast quantities. Due to the massive amounts of empty fruit bunch ash produced because of the exponential rise in worldwide palm oil production, major plantations are having trouble disposing of them. Aim: The purpose of this research is to study the effectiveness of the ZnO-EFBA catalyst under visible light irradiation for the photoesterification reaction and its physicochemical properties of the photocatalyst that will be determined using TGA, SEMEDX, XRD and BET. Method: The biodiesel will be produced by using two steps which are photoesterification to reduce the FFA value in WCO and followed by transesterification to produce FAMEs. The photoesterification reactions were conducted using WCO under visible light irradiation. Various parameters were examined, including different reaction times of 1 to 4 hours, different methanol to oil molar ratios of 12:1, 14:1, 16:1, and 18:1, and different ZnO-EFBA catalyst loadings ranging from 0 wt.% to 8 wt.%. The obtained results demonstrated that each WCO sample has a different optimum condition in the photoesterification reaction. Moreover, it was observed that lower FFA values correlated with higher biodiesel conversion rates in the transesterification reaction with 79.06%, 77.72% and 73.33% for samples 1, 2 and 3, respectively. Result: By using EFBA as a heterogeneous catalyst doped with ZnO in the manufacturing of biodiesel, it helps to reduce the waste that the palm oil industry creates, limiting the adverse effects on human health and environmental harm. Furthermore, biodiesel is a renewable, clean-burning alternative to petroleum fuel, which is domestically manufactured. Conclusion: The use of biodiesel as a vehicle fuel boosts energy security, enhances the environment and air quality, and offers safety advantages. © 2024 Bentham Science Publishers. |
publisher |
Bentham Science Publishers |
issn |
24055204 |
language |
English |
format |
Article |
accesstype |
|
record_format |
scopus |
collection |
Scopus |
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1809678154864787456 |