Optimization Study of Biomass Hydrogenation to Ethylene Glycol Using Response Surface Methodology

Optimization Study of Biomass Hydrogenation to Ethylene Glycol Using Response Surface Methodology

Statistical-based study using response surface methodology (RSM) was conducted to study the effects of process parameters towards biomass hydrogenation. Using Malaysian oil palm empty fruit bunches (EFB) fibres as feedstock, the central composite design (CCD) technique was employed and 18 runs were...

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Main Authors: Poh Gaik Law, Noor Haida Sebran, Ashraf Zin Zawawi, Azlan Shah Hussain
Format: Article
Language:English
Published: MDPI AG 2020-05-01
Series:Processes
Subjects:
biomass hydrogenation
central composite design (CCD)
response surface methodology (RSM)
empty fruit bunches (EFB)
ethylene glycol (EG)
Online Access:https://www.mdpi.com/2227-9717/8/5/588
id doaj-53df960ef5c847898c48eeb9adbb994f
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spelling doaj-53df960ef5c847898c48eeb9adbb994f2020-11-25T02:20:13ZengMDPI AGProcesses2227-97172020-05-01858858810.3390/pr8050588Optimization Study of Biomass Hydrogenation to Ethylene Glycol Using Response Surface MethodologyPoh Gaik Law0Noor Haida Sebran1Ashraf Zin Zawawi2Azlan Shah Hussain3PETRONAS Research Sdn Bhd, Lot 3288 & 3289, Off Jalan Ayer Itam, Kawasan Institusi Bangi, Kajang 43000, Selangor, MalaysiaPETRONAS Research Sdn Bhd, Lot 3288 & 3289, Off Jalan Ayer Itam, Kawasan Institusi Bangi, Kajang 43000, Selangor, MalaysiaPETRONAS Research Sdn Bhd, Lot 3288 & 3289, Off Jalan Ayer Itam, Kawasan Institusi Bangi, Kajang 43000, Selangor, MalaysiaPETRONAS Research Sdn Bhd, Lot 3288 & 3289, Off Jalan Ayer Itam, Kawasan Institusi Bangi, Kajang 43000, Selangor, MalaysiaStatistical-based study using response surface methodology (RSM) was conducted to study the effects of process parameters towards biomass hydrogenation. Using Malaysian oil palm empty fruit bunches (EFB) fibres as feedstock, the central composite design (CCD) technique was employed and 18 runs were generated by CCD when four parameters (mass ratio of binary catalyst, hydrogen pressure, temperature and mass ratio of catalyst to feedstock) were varied with two center points to determine the effects of process parameters and eventually to get optimum ethylene glycol (EG) yield. RSM with quadratic function was generated for biomass hydrogenation, indicating all factors except temperature, were important in determining EG yield. Analysis of variance (ANOVA) showed a high coefficient of determination (R<sup>2</sup>) value of >0.98, ensuring a satisfactory prediction of the quadratic model with experimental data. The quadratic model suggested the optimum EG yield should be >25 wt.% and the EG yield results were successfully reproduced in the laboratory.https://www.mdpi.com/2227-9717/8/5/588biomass hydrogenationcentral composite design (CCD)response surface methodology (RSM)empty fruit bunches (EFB)ethylene glycol (EG)
collection DOAJ
language English
format Article
sources DOAJ
author Poh Gaik Law
Noor Haida Sebran
Ashraf Zin Zawawi
Azlan Shah Hussain
spellingShingle Poh Gaik Law
Noor Haida Sebran
Ashraf Zin Zawawi
Azlan Shah Hussain
Optimization Study of Biomass Hydrogenation to Ethylene Glycol Using Response Surface Methodology
Processes
biomass hydrogenation
central composite design (CCD)
response surface methodology (RSM)
empty fruit bunches (EFB)
ethylene glycol (EG)
author_facet Poh Gaik Law
Noor Haida Sebran
Ashraf Zin Zawawi
Azlan Shah Hussain
author_sort Poh Gaik Law
title Optimization Study of Biomass Hydrogenation to Ethylene Glycol Using Response Surface Methodology
title_short Optimization Study of Biomass Hydrogenation to Ethylene Glycol Using Response Surface Methodology
title_full Optimization Study of Biomass Hydrogenation to Ethylene Glycol Using Response Surface Methodology
title_fullStr Optimization Study of Biomass Hydrogenation to Ethylene Glycol Using Response Surface Methodology
title_full_unstemmed Optimization Study of Biomass Hydrogenation to Ethylene Glycol Using Response Surface Methodology
title_sort optimization study of biomass hydrogenation to ethylene glycol using response surface methodology
publisher MDPI AG
series Processes
issn 2227-9717
publishDate 2020-05-01
description Statistical-based study using response surface methodology (RSM) was conducted to study the effects of process parameters towards biomass hydrogenation. Using Malaysian oil palm empty fruit bunches (EFB) fibres as feedstock, the central composite design (CCD) technique was employed and 18 runs were generated by CCD when four parameters (mass ratio of binary catalyst, hydrogen pressure, temperature and mass ratio of catalyst to feedstock) were varied with two center points to determine the effects of process parameters and eventually to get optimum ethylene glycol (EG) yield. RSM with quadratic function was generated for biomass hydrogenation, indicating all factors except temperature, were important in determining EG yield. Analysis of variance (ANOVA) showed a high coefficient of determination (R<sup>2</sup>) value of >0.98, ensuring a satisfactory prediction of the quadratic model with experimental data. The quadratic model suggested the optimum EG yield should be >25 wt.% and the EG yield results were successfully reproduced in the laboratory.
topic biomass hydrogenation
central composite design (CCD)
response surface methodology (RSM)
empty fruit bunches (EFB)
ethylene glycol (EG)
url https://www.mdpi.com/2227-9717/8/5/588
work_keys_str_mv AT pohgaiklaw optimizationstudyofbiomasshydrogenationtoethyleneglycolusingresponsesurfacemethodology
AT noorhaidasebran optimizationstudyofbiomasshydrogenationtoethyleneglycolusingresponsesurfacemethodology
AT ashrafzinzawawi optimizationstudyofbiomasshydrogenationtoethyleneglycolusingresponsesurfacemethodology
AT azlanshahhussain optimizationstudyofbiomasshydrogenationtoethyleneglycolusingresponsesurfacemethodology
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