CONVERSION OF POLYETHYLENE AND RUBBER SEED SHELL MIXTURES TO SYNGAS USING CATALYTIC STEAM GASIFICATION
This present study investigates the behavior of co-gasification of rubber seed shells (RSS) and high density polyethylene (HOPE) waste mixtures with nickel catalyst as an alternative means of renewable energy source. The quality of the product gases are studied at different variables such as temp...
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my-utp-utpedia.212722021-09-16T14:27:26Z http://utpedia.utp.edu.my/21272/ CONVERSION OF POLYETHYLENE AND RUBBER SEED SHELL MIXTURES TO SYNGAS USING CATALYTIC STEAM GASIFICATION CHIN LAI , BRIDGID FUI TP Chemical technology This present study investigates the behavior of co-gasification of rubber seed shells (RSS) and high density polyethylene (HOPE) waste mixtures with nickel catalyst as an alternative means of renewable energy source. The quality of the product gases are studied at different variables such as temperature of 500-900°C, RSS and HOPE particle size range of 0.125-0.625 mm and 0-40 wt% HOPE in the mixture. Furthermore, the optimum conditions to find the maximum Hz composition, CO composition and total syngas from this process is investigated using Response Surface Methodology (RSM) coupled with Central Composite Design (CCD) using the Design-Expert Version 8.0.7.1. (Stat-Ease, Inc.) software. Additionally, thermodynamic analysis, mathematical modeling for gas solid reactions and kinetic parameters are determined. 2014-12 Thesis NonPeerReviewed application/pdf en http://utpedia.utp.edu.my/21272/1/2014%20-CHEMICAL%20-%20CONVERSION%20OF%20POLYETHYLENE%20%26%20RUBBER%20SEED%20SHELL%20MIXTURES%20TO%20SYNGAS%20USING%20CATALYTIC%20%20STEAM%20GASIFICATION%20-%20BRIDGID%20CHIN%20LAI%20FUI.pdf CHIN LAI , BRIDGID FUI (2014) CONVERSION OF POLYETHYLENE AND RUBBER SEED SHELL MIXTURES TO SYNGAS USING CATALYTIC STEAM GASIFICATION. PhD thesis, Universiti Teknologi PETRONAS. |
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This present study investigates the behavior of co-gasification of rubber seed
shells (RSS) and high density polyethylene (HOPE) waste mixtures with nickel
catalyst as an alternative means of renewable energy source. The quality of the
product gases are studied at different variables such as temperature of 500-900°C,
RSS and HOPE particle size range of 0.125-0.625 mm and 0-40 wt% HOPE in the
mixture. Furthermore, the optimum conditions to find the maximum Hz composition,
CO composition and total syngas from this process is investigated using Response
Surface Methodology (RSM) coupled with Central Composite Design (CCD) using
the Design-Expert Version 8.0.7.1. (Stat-Ease, Inc.) software. Additionally,
thermodynamic analysis, mathematical modeling for gas solid reactions and kinetic
parameters are determined. |
format |
Thesis |
author |
CHIN LAI , BRIDGID FUI |
author_facet |
CHIN LAI , BRIDGID FUI |
author_sort |
CHIN LAI , BRIDGID FUI |
title |
CONVERSION OF POLYETHYLENE AND RUBBER SEED SHELL MIXTURES
TO SYNGAS USING CATALYTIC STEAM GASIFICATION |
title_short |
CONVERSION OF POLYETHYLENE AND RUBBER SEED SHELL MIXTURES
TO SYNGAS USING CATALYTIC STEAM GASIFICATION |
title_full |
CONVERSION OF POLYETHYLENE AND RUBBER SEED SHELL MIXTURES
TO SYNGAS USING CATALYTIC STEAM GASIFICATION |
title_fullStr |
CONVERSION OF POLYETHYLENE AND RUBBER SEED SHELL MIXTURES
TO SYNGAS USING CATALYTIC STEAM GASIFICATION |
title_full_unstemmed |
CONVERSION OF POLYETHYLENE AND RUBBER SEED SHELL MIXTURES
TO SYNGAS USING CATALYTIC STEAM GASIFICATION |
title_sort |
conversion of polyethylene and rubber seed shell mixtures
to syngas using catalytic steam gasification |
publishDate |
2014 |
url |
http://utpedia.utp.edu.my/21272/1/2014%20-CHEMICAL%20-%20CONVERSION%20OF%20POLYETHYLENE%20%26%20RUBBER%20SEED%20SHELL%20MIXTURES%20TO%20SYNGAS%20USING%20CATALYTIC%20%20STEAM%20GASIFICATION%20-%20BRIDGID%20CHIN%20LAI%20FUI.pdf http://utpedia.utp.edu.my/21272/ |
_version_ |
1739832853123825664 |