Interesterification for biofuel synthesis over HJ-2# caly-supported SO42-/ZrO2 solid acid catalyst

Interesterification for biofuel synthesis over HJ-2# caly-supported SO42-/ZrO2 solid acid catalyst

This study makes use of soybean oil to produce biodiesel using SO42-/ZrO2-HJ-2# caly solid acid catalyst (SZ-HJ-2#). It was through coprecipitation and impregnation method that the catalyst was prepared which was then characterized by means of FE-SEM, XRD, EDS, BET, FT-IR, ICP-MS, NH3-TPD and XPS. T...

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Main Authors: Lixin Dong, Xueqiong Zhang, Jing Chen, Yinan Hao, Liwen Pang, Lijun Ding
Format: Article
Language:English
Published: EDP Sciences 2021-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/66/e3sconf_icgec2021_01033.pdf
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spelling doaj-3a2ca7d916de4188ad45aeed8ec3ef422021-07-15T06:53:50ZengEDP SciencesE3S Web of Conferences2267-12422021-01-012900103310.1051/e3sconf/202129001033e3sconf_icgec2021_01033Interesterification for biofuel synthesis over HJ-2# caly-supported SO42-/ZrO2 solid acid catalystLixin Dong0Xueqiong Zhang1Jing Chen2Yinan Hao3Liwen Pang4Lijun Ding5College of Science, Inner Mongolia Agricultural UniversityCollege of Science, Inner Mongolia Agricultural UniversityCollege of Science, Inner Mongolia Agricultural UniversityCollege of Science, Inner Mongolia Agricultural UniversityInner Mongolia Vocational College of Chemical EngineeringCollege of Science, Inner Mongolia Agricultural UniversityThis study makes use of soybean oil to produce biodiesel using SO42-/ZrO2-HJ-2# caly solid acid catalyst (SZ-HJ-2#). It was through coprecipitation and impregnation method that the catalyst was prepared which was then characterized by means of FE-SEM, XRD, EDS, BET, FT-IR, ICP-MS, NH3-TPD and XPS. The catalytic property of the synthesized catalyst was determined by using it to produce biodiesel from soybean oil. A study was carried out to find the effect of the different preparation condition of catalyst affecting the process. For SZ-HJ-2#, Optimized condition of 0.5 mol/L(zirconium salt solution), 1.5 mol/L (the concentration of sulfuric acid impregnating solution) and 450℃(calcination temperature). Optimized conditions of 8.32:1 methanol to soybean oil molar ratio and catalytic loading of 1 wt% at 55℃ with a stirring rate of 500 rpm for a reaction duration of 10 h gave a maximum yield of 89.6 wt%. Moreover, the further investigation indicated the catalytic activities were closely related to the ratio of Brönsted acid sites and intensity on catalysts. Besides, the excellent performance of the catalyst during recycling was shown by conducting reusability study.https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/66/e3sconf_icgec2021_01033.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Lixin Dong
Xueqiong Zhang
Jing Chen
Yinan Hao
Liwen Pang
Lijun Ding
spellingShingle Lixin Dong
Xueqiong Zhang
Jing Chen
Yinan Hao
Liwen Pang
Lijun Ding
Interesterification for biofuel synthesis over HJ-2# caly-supported SO42-/ZrO2 solid acid catalyst
E3S Web of Conferences
author_facet Lixin Dong
Xueqiong Zhang
Jing Chen
Yinan Hao
Liwen Pang
Lijun Ding
author_sort Lixin Dong
title Interesterification for biofuel synthesis over HJ-2# caly-supported SO42-/ZrO2 solid acid catalyst
title_short Interesterification for biofuel synthesis over HJ-2# caly-supported SO42-/ZrO2 solid acid catalyst
title_full Interesterification for biofuel synthesis over HJ-2# caly-supported SO42-/ZrO2 solid acid catalyst
title_fullStr Interesterification for biofuel synthesis over HJ-2# caly-supported SO42-/ZrO2 solid acid catalyst
title_full_unstemmed Interesterification for biofuel synthesis over HJ-2# caly-supported SO42-/ZrO2 solid acid catalyst
title_sort interesterification for biofuel synthesis over hj-2# caly-supported so42-/zro2 solid acid catalyst
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2021-01-01
description This study makes use of soybean oil to produce biodiesel using SO42-/ZrO2-HJ-2# caly solid acid catalyst (SZ-HJ-2#). It was through coprecipitation and impregnation method that the catalyst was prepared which was then characterized by means of FE-SEM, XRD, EDS, BET, FT-IR, ICP-MS, NH3-TPD and XPS. The catalytic property of the synthesized catalyst was determined by using it to produce biodiesel from soybean oil. A study was carried out to find the effect of the different preparation condition of catalyst affecting the process. For SZ-HJ-2#, Optimized condition of 0.5 mol/L(zirconium salt solution), 1.5 mol/L (the concentration of sulfuric acid impregnating solution) and 450℃(calcination temperature). Optimized conditions of 8.32:1 methanol to soybean oil molar ratio and catalytic loading of 1 wt% at 55℃ with a stirring rate of 500 rpm for a reaction duration of 10 h gave a maximum yield of 89.6 wt%. Moreover, the further investigation indicated the catalytic activities were closely related to the ratio of Brönsted acid sites and intensity on catalysts. Besides, the excellent performance of the catalyst during recycling was shown by conducting reusability study.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/66/e3sconf_icgec2021_01033.pdf
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AT xueqiongzhang interesterificationforbiofuelsynthesisoverhj2calysupportedso42zro2solidacidcatalyst
AT jingchen interesterificationforbiofuelsynthesisoverhj2calysupportedso42zro2solidacidcatalyst
AT yinanhao interesterificationforbiofuelsynthesisoverhj2calysupportedso42zro2solidacidcatalyst
AT liwenpang interesterificationforbiofuelsynthesisoverhj2calysupportedso42zro2solidacidcatalyst
AT lijunding interesterificationforbiofuelsynthesisoverhj2calysupportedso42zro2solidacidcatalyst
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