PREPARATION AND  CHARACTERIZATION OF SULFATED ZIRCONIA FOR BIODIESEL PRODUCTION

Heri Rustamaji; Hary Sulistyo; Arief Budiman

doi:10.14710/reaktor.13.4.225-230

DOI: https://doi.org/10.14710/reaktor.13.4.225-230

PREPARATION AND CHARACTERIZATION OF SULFATED ZIRCONIA FOR BIODIESEL PRODUCTION

*Heri Rustamaji - Department of Chemical Engineering, Faculty of Engineering, Lampung University, Indonesia

Hary Sulistyo - Department of Chemical Engineering, Faculty Engineering, Gadjah Mada University, Indonesia

Arief Budiman - Department of Chemical Engineering, Faculty Engineering, Gadjah Mada University, Indonesia

Published: 3 Nov 2011.

BibTex Citation Data :

@article{Reaktor3582,
    author = {Heri Rustamaji and Hary Sulistyo and Arief Budiman},
    title = {PREPARATION AND  CHARACTERIZATION OF SULFATED ZIRCONIA FOR BIODIESEL PRODUCTION},
    journal = {Reaktor},
  volume = {13},
    number = {4},
    year = {2011},
    keywords = {biodiesel; characterization; solid catalyst; sulfated zirconia},
    abstract = {  Sulfated zirconia   has been prepared and characterized     by   X-ray diffraction, infrared spectroscopy, BET surface area, and BJH pore distribution methods. XRD patterns reveal that the sulfated zirconia mainly consists of tetragonal crystalline zirconia with average size of about 9.8 nm. N 2  adsorption data show that the nanosized sulfated zirconia has high surface area (109.4 m 2 /g) and show  s   the uniform pore distribution aggregated by zirconia nanoparticles. Sulfated zirconias were used as catalysts in the alcoholysis of jatropha oil. The conversions   of   jatropha oil alcoholysis   under   good conditions (120 o C, 2 h, 3 wt% of catalyst and 1000 rpm agitation speed) were 79.65%.          Abstrak          PREPARASI DAN KARAKTERISASI ZIRKONIA TERSULFATASI SEBAGAI KATALISATOR DALAM PEMBUATAN BIODIESEL.     Zirkonia   tersulfatasi berhasil dibuat dan dikarakterisasi dengan difraksi sinar X, spektroskopi inframerah, pengukuran luas permukaan dengan metode BET dan dan pengukuran distribusi pori dengan metode BJH.   Pola   difraksi sinar X menunjukkan bahwa susunan utama zirkonia tersulfatasi terdiri atas kristal zirkonia tetragonal dengan ukuran pori rata-rata sekitar 9,8 nm. Data adsorpsi N 2  menunjukkan bahwa zirkonia tersulfatasi yang berukuran nano memiliki luas permukaan yang tinggi (109,4 m 2 /g) dan memiliki distribusi ukuran pori yang seragam. Zirkonia tersulfatasi digunakan sebagai katalisator dalam reaksi alkoholisis minyak jarak pagar dengan konversi pada kondisi yang relatif baik (120 o C, 2 jam, 3% berat katalis dan kecepatan pengadukan 1000 rpm) sebesar 79,65%.  },
   issn = {2407-5973},   pages = {225--230}  doi = {10.14710/reaktor.13.4.225-230},
    url = {https://ejournal.undip.ac.id/index.php/reaktor/article/view/3582}
}

Citation Format:

Abstract

Sulfated zirconia has been prepared and characterized by X-ray diffraction, infrared spectroscopy, BET surface area, and BJH pore distribution methods. XRD patterns reveal that the sulfated zirconia mainly consists of tetragonal crystalline zirconia with average size of about 9.8 nm. N₂ adsorption data show that the nanosized sulfated zirconia has high surface area (109.4 m²/g) and shows the uniform pore distribution aggregated by zirconia nanoparticles. Sulfated zirconias were used as catalysts in the alcoholysis of jatropha oil. The conversions of jatropha oil alcoholysis under good conditions (120^oC, 2 h, 3 wt% of catalyst and 1000 rpm agitation speed) were 79.65%.

Abstrak

PREPARASI DAN KARAKTERISASI ZIRKONIA TERSULFATASI SEBAGAI KATALISATOR DALAM PEMBUATAN BIODIESEL. Zirkonia tersulfatasi berhasil dibuat dan dikarakterisasi dengan difraksi sinar X, spektroskopi inframerah, pengukuran luas permukaan dengan metode BET dan dan pengukuran distribusi pori dengan metode BJH. Pola difraksi sinar X menunjukkan bahwa susunan utama zirkonia tersulfatasi terdiri atas kristal zirkonia tetragonal dengan ukuran pori rata-rata sekitar 9,8 nm. Data adsorpsi N₂ menunjukkan bahwa zirkonia tersulfatasi yang berukuran nano memiliki luas permukaan yang tinggi (109,4 m²/g) dan memiliki distribusi ukuran pori yang seragam. Zirkonia tersulfatasi digunakan sebagai katalisator dalam reaksi alkoholisis minyak jarak pagar dengan konversi pada kondisi yang relatif baik (120^oC, 2 jam, 3% berat katalis dan kecepatan pengadukan 1000 rpm) sebesar 79,65%.

Fulltext View|Download

Keywords: biodiesel; characterization; solid catalyst; sulfated zirconia

Article Metrics:

Article Info

Section: Research Article

Language : EN

In Volume 13, Nomor 4, Desember 2011

Recent articles

EKSTRAKSI OLEORESIN DARI KAYU MANIS BERBANTU ULTRASONIK DENGAN MENGGUNAKAN PELARUT ALKOHOL PEMODELAN MATEMATIKA PROSES PRODUKSI POLYHYDROXYBUTYRATE (PHB) DARI TAPIOKA STUDI KINETIKA PROSES KIMIA DAN FISIKA PENGHILANGAN GETAH CRUDE PLAM OIL (CPO) DENGAN ASAM FOSFAT More recent articles

Most cited articles

Synthesis of TiO2 nanotubes by using combination of sonication and hydrothermal treatment and their photocatalytic activity for hydrogen evolution DEALUMINATION AND CHARACTERIZATION OF ZSM - 5 AS CATALYST FOR GLYCEROL CONVERSION TO GLYCEROL MONOLAURATE A QUANTITATIVE STRUCTURE-PROPERTY RELATIONSHIP (QSPR) EVALUATION OF CRITICAL VOLUME OF UNSATURATED HYDROCARBON ALKENES AND ALKYNES USING SIMPLE CONNECTIVITY INDICES EKSTRAKSI OLEORESIN DARI KAYU MANIS BERBANTU ULTRASONIK DENGAN MENGGUNAKAN PELARUT ALKOHOL APPLICATION OF PHYTOREMEDIATION FOR HERBAL MEDICINE WASTE AND ITS UTILIZATION FOR PROTEIN PRODUCTION More cited articles

Last update:

No citation recorded.

Last update: 2025-01-15 09:16:37

Elimination of hydroxo zirconium complex using the combination of polar organic and reflux at the preparation of Zr-pillared-clay
Muzakky. International Journal of ChemTech Research, 8 (1), 2015.
Preparation, characterization, and modelling activity of potassium flouride modified hydrotalcite for microwave assisted biodiesel conversion
Fatimah I.. Sustainable Chemistry and Pharmacy, 8 , 2018. doi: 10.1016/j.scp.2018.02.004

In order for REAKTOR to publish and disseminate research articles, we need non-exclusive publishing rights (transferred from the author(s) to the publisher). This is determined by a publishing agreement between the Author(s) and REAKTOR. This agreement deals with transferring or licensing the publishing copyright to REAKTOR while Authors still retain significant rights to use and share their published articles. REAKTOR supports the need for authors to share, disseminate, and maximize the impact of their research and these rights in any databases.

As a journal author, you have the right to use your article for many purposes, including by your employing institute or company. These Author rights can be exercised without the need to obtain specific permission. Authors publishing in BCREC journals have wide rights to use their works for teaching and scholarly purposes without needing to seek permission, including, but not limited to:

use for classroom teaching by the Author or the Author's institution and presentation at a meeting or conference and distributing copies to attendees;
use for internal training by the author's company;
distribution to colleagues for their research use;
use in a subsequent compilation of the author's works;
inclusion in a thesis or dissertation;
reuse of portions or extracts from the article in other works (with full acknowledgment of the final article);
preparation of derivative works (other than commercial purposes) (with full acknowledgment of the final article);
voluntary posting on open websites operated by the author or the author’s institution for scholarly purposes,

(but it should follow the open access license of Creative Common CC-by-SA License).

Authors/Readers/Third Parties can copy and redistribute the material in any medium or format and remix, transform, and build upon the material for any purpose, even commercially. Still, they must give appropriate credit (the name of the creator and attribution parties (authors detail information), a copyright notice, an open access license notice, a disclaimer notice, and a link to the material), provide a link to the license, and indicate if changes were made (Publisher indicates the modification of the material (if any).

Authors/Readers/Third Parties can read, print and download, redistribute or republish the article (e.g., display in a repository), translate the article, download for text and data mining purposes, reuse portions or extracts from the article in other works, sell or re-use for commercial purposes, remix, transform, or build upon the material, they must distribute their contributions under the same license as the original Creative Commons Attribution-ShareAlike (CC BY-SA).