Palm oil waste gasification: the effect of operating temperature for hydrogen production

The production of synthesis gas from the gasification of palm oil waste; Kernel Shell, (KS) and Mesocarp Fibre, (MF) has been studied using a small lab scale gasification unit. The effect of operating temperature on the sample for the products yield and composition were investigated. The sample was...

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Main Author: Ahmad Amirul Asraf, Mohd Daud
Format: Undergraduates Project Papers
Language:English
Published: 2014
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Online Access:http://umpir.ump.edu.my/id/eprint/8928/1/CD8509%20%40%2036.pdf
http://umpir.ump.edu.my/id/eprint/8928/
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Institution: Universiti Malaysia Pahang
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spelling my.ump.umpir.89282021-07-22T03:59:24Z http://umpir.ump.edu.my/id/eprint/8928/ Palm oil waste gasification: the effect of operating temperature for hydrogen production Ahmad Amirul Asraf, Mohd Daud TD Environmental technology. Sanitary engineering The production of synthesis gas from the gasification of palm oil waste; Kernel Shell, (KS) and Mesocarp Fibre, (MF) has been studied using a small lab scale gasification unit. The effect of operating temperature on the sample for the products yield and composition were investigated. The sample was collected, cleaned, dried, resized and gone through CHNS analysis prior to be used as the feedstock. Initially, approximately three grams of sample was used. Reactor and condenser were weighted before and after the gasification process in order to know the weight percent of solid, liquid and gas for each sample. Nitrogen gas; N2 was first purged at 50 ml/min into the reactor as the carrier gas to remove gases in the system for about 20 minutes. It was done to achieve oxygen free atmosphere in order to avoid any explosion. After that, the flowrate was increased to 100 ml/min and the furnace was turned on to the desired temperature. The products which were syngas and bio-liquid from the gasification were firstly flown into the condenser. Then, the uncondensed gases were flew into a 12 L gas sampling bag and analyzed via Gas Chromatography, GC. The liquid product was trapped in the condenser. The gasification process was done in one hour. The effect of operating temperature has influenced the yield of bio oil, syngas and char for the samples (KS and MF). The highest syngas produced from MF and KS was obtained at 900 oC. As the temperature increased, the product yield of bio-oil and char were decreased. The highest amount of Hydrogen gas produced for both samples was obtained at 900 oC and it can be deduced that 900 oC is the optimum temperature for the gasification process. The composition of the syngas produced was identified using Gas Chromatography (GC). The result showed that the Hydrogen composition in MF is higher than KS. The studies on the production of Hydrogen gas from the gasification of KS and MF showed that the Hydrogen obtained from the KS and MF might be a potential valuable source for renewable fuel and for the usage of chemical feed stocks 2014-01 Undergraduates Project Papers NonPeerReviewed application/pdf en http://umpir.ump.edu.my/id/eprint/8928/1/CD8509%20%40%2036.pdf Ahmad Amirul Asraf, Mohd Daud (2014) Palm oil waste gasification: the effect of operating temperature for hydrogen production. Faculty Of Chemical & Natural Resources Engineering, Universiti Malaysia Pahang.
institution Universiti Malaysia Pahang
building UMP Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Pahang
content_source UMP Institutional Repository
url_provider http://umpir.ump.edu.my/
language English
topic TD Environmental technology. Sanitary engineering
spellingShingle TD Environmental technology. Sanitary engineering
Ahmad Amirul Asraf, Mohd Daud
Palm oil waste gasification: the effect of operating temperature for hydrogen production
description The production of synthesis gas from the gasification of palm oil waste; Kernel Shell, (KS) and Mesocarp Fibre, (MF) has been studied using a small lab scale gasification unit. The effect of operating temperature on the sample for the products yield and composition were investigated. The sample was collected, cleaned, dried, resized and gone through CHNS analysis prior to be used as the feedstock. Initially, approximately three grams of sample was used. Reactor and condenser were weighted before and after the gasification process in order to know the weight percent of solid, liquid and gas for each sample. Nitrogen gas; N2 was first purged at 50 ml/min into the reactor as the carrier gas to remove gases in the system for about 20 minutes. It was done to achieve oxygen free atmosphere in order to avoid any explosion. After that, the flowrate was increased to 100 ml/min and the furnace was turned on to the desired temperature. The products which were syngas and bio-liquid from the gasification were firstly flown into the condenser. Then, the uncondensed gases were flew into a 12 L gas sampling bag and analyzed via Gas Chromatography, GC. The liquid product was trapped in the condenser. The gasification process was done in one hour. The effect of operating temperature has influenced the yield of bio oil, syngas and char for the samples (KS and MF). The highest syngas produced from MF and KS was obtained at 900 oC. As the temperature increased, the product yield of bio-oil and char were decreased. The highest amount of Hydrogen gas produced for both samples was obtained at 900 oC and it can be deduced that 900 oC is the optimum temperature for the gasification process. The composition of the syngas produced was identified using Gas Chromatography (GC). The result showed that the Hydrogen composition in MF is higher than KS. The studies on the production of Hydrogen gas from the gasification of KS and MF showed that the Hydrogen obtained from the KS and MF might be a potential valuable source for renewable fuel and for the usage of chemical feed stocks
format Undergraduates Project Papers
author Ahmad Amirul Asraf, Mohd Daud
author_facet Ahmad Amirul Asraf, Mohd Daud
author_sort Ahmad Amirul Asraf, Mohd Daud
title Palm oil waste gasification: the effect of operating temperature for hydrogen production
title_short Palm oil waste gasification: the effect of operating temperature for hydrogen production
title_full Palm oil waste gasification: the effect of operating temperature for hydrogen production
title_fullStr Palm oil waste gasification: the effect of operating temperature for hydrogen production
title_full_unstemmed Palm oil waste gasification: the effect of operating temperature for hydrogen production
title_sort palm oil waste gasification: the effect of operating temperature for hydrogen production
publishDate 2014
url http://umpir.ump.edu.my/id/eprint/8928/1/CD8509%20%40%2036.pdf
http://umpir.ump.edu.my/id/eprint/8928/
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