Hydrocracking of crude palm oil to a biofuel using zirconium nitride and zirconium phosphide-modified bentonite

In this study, bentonite modified by zirconium nitride (ZrN) and zirconium phosphide (ZrP) catalysts was studied in the hydrocracking of crude palm oil to biofuels. The study demonstrated that bentonite was propitiously modified by ZrN and ZrP, as assessed by XRD, FTIR spectroscopy, and SEM-EDX anal...

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Autores principales: Hasanudin, Hasanudin, Asri, Wan Ryan, Zulaikha, Indah Sari, Ayu, Cik, Rachmat, Addy, Riyanti, Fahma, Hadiah, Fitri, Zainul, Rahadian, Maryana, Roni
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2022
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9361004/
https://www.ncbi.nlm.nih.gov/pubmed/36043093
http://dx.doi.org/10.1039/d2ra03941a
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author Hasanudin, Hasanudin
Asri, Wan Ryan
Zulaikha, Indah Sari
Ayu, Cik
Rachmat, Addy
Riyanti, Fahma
Hadiah, Fitri
Zainul, Rahadian
Maryana, Roni
author_facet Hasanudin, Hasanudin
Asri, Wan Ryan
Zulaikha, Indah Sari
Ayu, Cik
Rachmat, Addy
Riyanti, Fahma
Hadiah, Fitri
Zainul, Rahadian
Maryana, Roni
author_sort Hasanudin, Hasanudin
collection PubMed
description In this study, bentonite modified by zirconium nitride (ZrN) and zirconium phosphide (ZrP) catalysts was studied in the hydrocracking of crude palm oil to biofuels. The study demonstrated that bentonite was propitiously modified by ZrN and ZrP, as assessed by XRD, FTIR spectroscopy, and SEM-EDX analysis. The acidity of the bentonite catalyst was remarkably enhanced by ZrN and ZrP, and it showed an increased intensity in the Lewis acid and Brønsted acid sites, as presented by pyridine FTIR. In the hydrocracking application, the highest conversion was achieved by bentonite-ZrN at 8 mEq g(−1) catalyst loading of 87.93%, whereas bentonite-ZrP at 10 mEq g(−1) showed 86.04% conversion, which suggested that there was a strong positive correlation between the catalyst acidity and the conversion under a particular condition. The biofuel distribution fraction showed that both the catalysts produced a high bio-kerosene fraction, followed by bio-gasoline and oil fuel fractions. The reusability study revealed that both the catalysts had sufficient conversion stability of CPO through the hydrocracking reaction up to four consecutive runs with a low decrease in the catalyst activity. Overall, bentonite-ZrN dominantly favored the hydrocracking of CPO than bentonite-ZrP.
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spelling pubmed-93610042022-08-29 Hydrocracking of crude palm oil to a biofuel using zirconium nitride and zirconium phosphide-modified bentonite Hasanudin, Hasanudin Asri, Wan Ryan Zulaikha, Indah Sari Ayu, Cik Rachmat, Addy Riyanti, Fahma Hadiah, Fitri Zainul, Rahadian Maryana, Roni RSC Adv Chemistry In this study, bentonite modified by zirconium nitride (ZrN) and zirconium phosphide (ZrP) catalysts was studied in the hydrocracking of crude palm oil to biofuels. The study demonstrated that bentonite was propitiously modified by ZrN and ZrP, as assessed by XRD, FTIR spectroscopy, and SEM-EDX analysis. The acidity of the bentonite catalyst was remarkably enhanced by ZrN and ZrP, and it showed an increased intensity in the Lewis acid and Brønsted acid sites, as presented by pyridine FTIR. In the hydrocracking application, the highest conversion was achieved by bentonite-ZrN at 8 mEq g(−1) catalyst loading of 87.93%, whereas bentonite-ZrP at 10 mEq g(−1) showed 86.04% conversion, which suggested that there was a strong positive correlation between the catalyst acidity and the conversion under a particular condition. The biofuel distribution fraction showed that both the catalysts produced a high bio-kerosene fraction, followed by bio-gasoline and oil fuel fractions. The reusability study revealed that both the catalysts had sufficient conversion stability of CPO through the hydrocracking reaction up to four consecutive runs with a low decrease in the catalyst activity. Overall, bentonite-ZrN dominantly favored the hydrocracking of CPO than bentonite-ZrP. The Royal Society of Chemistry 2022-08-09 /pmc/articles/PMC9361004/ /pubmed/36043093 http://dx.doi.org/10.1039/d2ra03941a Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Hasanudin, Hasanudin
Asri, Wan Ryan
Zulaikha, Indah Sari
Ayu, Cik
Rachmat, Addy
Riyanti, Fahma
Hadiah, Fitri
Zainul, Rahadian
Maryana, Roni
Hydrocracking of crude palm oil to a biofuel using zirconium nitride and zirconium phosphide-modified bentonite
title Hydrocracking of crude palm oil to a biofuel using zirconium nitride and zirconium phosphide-modified bentonite
title_full Hydrocracking of crude palm oil to a biofuel using zirconium nitride and zirconium phosphide-modified bentonite
title_fullStr Hydrocracking of crude palm oil to a biofuel using zirconium nitride and zirconium phosphide-modified bentonite
title_full_unstemmed Hydrocracking of crude palm oil to a biofuel using zirconium nitride and zirconium phosphide-modified bentonite
title_short Hydrocracking of crude palm oil to a biofuel using zirconium nitride and zirconium phosphide-modified bentonite
title_sort hydrocracking of crude palm oil to a biofuel using zirconium nitride and zirconium phosphide-modified bentonite
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9361004/
https://www.ncbi.nlm.nih.gov/pubmed/36043093
http://dx.doi.org/10.1039/d2ra03941a
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