Hydrogen production from catalytic steam co-gasification of waste tyre and palm kernel shell in pilot scale fluidized bed gasifier

In order to recover energy and recycle waste materials, an experimental study was performed on utilization of waste materials in catalytic steam gasification system. In current research, an alternative method of hydrogen production is achieved by blending of palm kernel shell (PKS) with waste tyre a...

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Main Authors: Yusup, S., Moghadam, R.A., Shoaibi, A.A., Melati, M., Khan, Z., Tzeng, L.M., Wan Azlina, A.K.G.H.
Format: Book
Published: Nova Science Publishers, Inc. 2013
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-84892001147&partnerID=40&md5=ec73ac6d6cb3adf8607b3ed8f5fa8a7e
http://eprints.utp.edu.my/32952/
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Institution: Universiti Teknologi Petronas
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spelling my.utp.eprints.329522022-03-30T01:10:53Z Hydrogen production from catalytic steam co-gasification of waste tyre and palm kernel shell in pilot scale fluidized bed gasifier Yusup, S. Moghadam, R.A. Shoaibi, A.A. Melati, M. Khan, Z. Tzeng, L.M. Wan Azlina, A.K.G.H. In order to recover energy and recycle waste materials, an experimental study was performed on utilization of waste materials in catalytic steam gasification system. In current research, an alternative method of hydrogen production is achieved by blending of palm kernel shell (PKS) with waste tyre as a promising energy resource. Experiments were carried out at 600-800°C with steam/feedstock ratio (S/F) of 2-4 (kg/kg) and waste tyre/PKS ratio of 0-0.3 (kg/kg). This paper reports the results obtained from series of experiments that have been performed, on a pilot plant to improve hydrogen production efficiency. The highest H2 and total syngas content of 66.15 vol and 83.8 vol was achieved respectively under condition of 800°C and 30 wt of waste tyre blended with PKS and S/F ratio of 4 (kg/kg). The results obtained confirmed that mixtures of PKS and waste tyre in catalytic steam fluidized bed system produced a fuel gas with a calorific value of 14.76 MJ/Nm3 which has the potential to be utilised in engines. © 2013 by Nova Science Publishers, Inc. All rights reserved. Nova Science Publishers, Inc. 2013 Book NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-84892001147&partnerID=40&md5=ec73ac6d6cb3adf8607b3ed8f5fa8a7e Yusup, S. and Moghadam, R.A. and Shoaibi, A.A. and Melati, M. and Khan, Z. and Tzeng, L.M. and Wan Azlina, A.K.G.H. (2013) Hydrogen production from catalytic steam co-gasification of waste tyre and palm kernel shell in pilot scale fluidized bed gasifier. Nova Science Publishers, Inc., pp. 181-191. http://eprints.utp.edu.my/32952/
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Institutional Repository
url_provider http://eprints.utp.edu.my/
description In order to recover energy and recycle waste materials, an experimental study was performed on utilization of waste materials in catalytic steam gasification system. In current research, an alternative method of hydrogen production is achieved by blending of palm kernel shell (PKS) with waste tyre as a promising energy resource. Experiments were carried out at 600-800°C with steam/feedstock ratio (S/F) of 2-4 (kg/kg) and waste tyre/PKS ratio of 0-0.3 (kg/kg). This paper reports the results obtained from series of experiments that have been performed, on a pilot plant to improve hydrogen production efficiency. The highest H2 and total syngas content of 66.15 vol and 83.8 vol was achieved respectively under condition of 800°C and 30 wt of waste tyre blended with PKS and S/F ratio of 4 (kg/kg). The results obtained confirmed that mixtures of PKS and waste tyre in catalytic steam fluidized bed system produced a fuel gas with a calorific value of 14.76 MJ/Nm3 which has the potential to be utilised in engines. © 2013 by Nova Science Publishers, Inc. All rights reserved.
format Book
author Yusup, S.
Moghadam, R.A.
Shoaibi, A.A.
Melati, M.
Khan, Z.
Tzeng, L.M.
Wan Azlina, A.K.G.H.
spellingShingle Yusup, S.
Moghadam, R.A.
Shoaibi, A.A.
Melati, M.
Khan, Z.
Tzeng, L.M.
Wan Azlina, A.K.G.H.
Hydrogen production from catalytic steam co-gasification of waste tyre and palm kernel shell in pilot scale fluidized bed gasifier
author_facet Yusup, S.
Moghadam, R.A.
Shoaibi, A.A.
Melati, M.
Khan, Z.
Tzeng, L.M.
Wan Azlina, A.K.G.H.
author_sort Yusup, S.
title Hydrogen production from catalytic steam co-gasification of waste tyre and palm kernel shell in pilot scale fluidized bed gasifier
title_short Hydrogen production from catalytic steam co-gasification of waste tyre and palm kernel shell in pilot scale fluidized bed gasifier
title_full Hydrogen production from catalytic steam co-gasification of waste tyre and palm kernel shell in pilot scale fluidized bed gasifier
title_fullStr Hydrogen production from catalytic steam co-gasification of waste tyre and palm kernel shell in pilot scale fluidized bed gasifier
title_full_unstemmed Hydrogen production from catalytic steam co-gasification of waste tyre and palm kernel shell in pilot scale fluidized bed gasifier
title_sort hydrogen production from catalytic steam co-gasification of waste tyre and palm kernel shell in pilot scale fluidized bed gasifier
publisher Nova Science Publishers, Inc.
publishDate 2013
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-84892001147&partnerID=40&md5=ec73ac6d6cb3adf8607b3ed8f5fa8a7e
http://eprints.utp.edu.my/32952/
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