Effect of Temperature on Catalytic Steam Co-Gasification of Rubber Seed Shells and Plastic HDPE Residues

Effect of Temperature on Catalytic Steam Co-Gasification of Rubber Seed Shells and Plastic HDPE Residues

The catalytic co-gasification of rubber seed shell (RSS) and high density polyethylene (HDPE) mixture is investigated in a bench scale fixed bed system known as high throughput micro reactors (HTMR) system at different reactor temperature of 600 - 800 °C in order to study the effects on performance...

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Main Authors: B.L.F. Chin, S. Yusup, A. Al Shoaibi, P. Kannan, C. Srinivasakannan, S.A. Sulaiman, A.P. Herman
Format: Article
Language:English
Published: AIDIC Servizi S.r.l. 2016-08-01
Series:Chemical Engineering Transactions
Online Access:https://www.cetjournal.it/index.php/cet/article/view/3743
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author B.L.F. Chin
S. Yusup
A. Al Shoaibi
P. Kannan
C. Srinivasakannan
S.A. Sulaiman
A.P. Herman
author_facet B.L.F. Chin
S. Yusup
A. Al Shoaibi
P. Kannan
C. Srinivasakannan
S.A. Sulaiman
A.P. Herman
author_sort B.L.F. Chin
collection DOAJ
description The catalytic co-gasification of rubber seed shell (RSS) and high density polyethylene (HDPE) mixture is investigated in a bench scale fixed bed system known as high throughput micro reactors (HTMR) system at different reactor temperature of 600 - 800 °C in order to study the effects on performance parameters such as gas and char yield, syngas yield and product gas composition. The operating temperature is selected based on the optimum conditions found from the previous study on the thermogravimetric analysis equipment coupled with mass spectrometer using these feedstock. The constant process variables used in the HTMR system are RSS particle size range of 0.100 - 0.150 mm, HDPE particle size range of 0.355 - 0.500 mm, and percentage of HDPE in the mixture of 20 weight%. The feeding rate of 2 g/h is carried out in the system.
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spelling doaj.art-2b4281803dcf45a28bb25cd6c4b9bb4a2022-12-21T17:13:27ZengAIDIC Servizi S.r.l.Chemical Engineering Transactions2283-92162016-08-015210.3303/CET1652097Effect of Temperature on Catalytic Steam Co-Gasification of Rubber Seed Shells and Plastic HDPE ResiduesB.L.F. ChinS. YusupA. Al ShoaibiP. KannanC. SrinivasakannanS.A. SulaimanA.P. HermanThe catalytic co-gasification of rubber seed shell (RSS) and high density polyethylene (HDPE) mixture is investigated in a bench scale fixed bed system known as high throughput micro reactors (HTMR) system at different reactor temperature of 600 - 800 °C in order to study the effects on performance parameters such as gas and char yield, syngas yield and product gas composition. The operating temperature is selected based on the optimum conditions found from the previous study on the thermogravimetric analysis equipment coupled with mass spectrometer using these feedstock. The constant process variables used in the HTMR system are RSS particle size range of 0.100 - 0.150 mm, HDPE particle size range of 0.355 - 0.500 mm, and percentage of HDPE in the mixture of 20 weight%. The feeding rate of 2 g/h is carried out in the system.https://www.cetjournal.it/index.php/cet/article/view/3743
spellingShingle B.L.F. Chin
S. Yusup
A. Al Shoaibi
P. Kannan
C. Srinivasakannan
S.A. Sulaiman
A.P. Herman
Effect of Temperature on Catalytic Steam Co-Gasification of Rubber Seed Shells and Plastic HDPE Residues
Chemical Engineering Transactions
title Effect of Temperature on Catalytic Steam Co-Gasification of Rubber Seed Shells and Plastic HDPE Residues
title_full Effect of Temperature on Catalytic Steam Co-Gasification of Rubber Seed Shells and Plastic HDPE Residues
title_fullStr Effect of Temperature on Catalytic Steam Co-Gasification of Rubber Seed Shells and Plastic HDPE Residues
title_full_unstemmed Effect of Temperature on Catalytic Steam Co-Gasification of Rubber Seed Shells and Plastic HDPE Residues
title_short Effect of Temperature on Catalytic Steam Co-Gasification of Rubber Seed Shells and Plastic HDPE Residues
title_sort effect of temperature on catalytic steam co gasification of rubber seed shells and plastic hdpe residues
url https://www.cetjournal.it/index.php/cet/article/view/3743
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AT aalshoaibi effectoftemperatureoncatalyticsteamcogasificationofrubberseedshellsandplastichdperesidues
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