Synthesis of Biodiesel in Low-Grade Palm Oil using Geopolymer-ZnO Catalyst
Yaasinta Lafasha Nabila(1), Thamrin usman(2*), Andi Hairil Alimuddin(3)
(1) Department of Chemistry, Faculty of Mathematics and Natural Sciences, Tanjungpura University, Jl. Ahmad Yani Pontianak, Kalimantan Barat 79124
(2) Department of Chemistry, Faculty of Mathematics and Natural Sciences, Tanjungpura University, Jl. Ahmad Yani Pontianak, Kalimantan Barat 79124
(3) Department of Chemistry, Faculty of Mathematics and Natural Sciences, Tanjungpura University, Jl. Ahmad Yani Pontianak, Kalimantan Barat 79124
(*) Corresponding Author
Abstract
This study aimed to synthesize biodiesel (fatty acid methyl ester) from low-grade palm oil using geopolymer-ZnO catalyst. The activity of catalyst was tested by mixing low-grade palm oil and methanol in a mole ratio of 1:10, with varying catalyst concentrations of 1%, 3%, and 5% at a temperature of 67 o C and different time intervals. Subsequently, the progression of the reaction was monitored using thin-layer chromatography (TLC). The results showed that catalyst ratios of 1:0, 1:1, and 1:2 provided complete conversion at concentrations of 3% and 5%. Geopolymer-ZnO catalyst reuse test was carried out using a concentration of 5%, followed by washing with n-hexane. After drying at 100 o C, the sample was reused in biodiesel synthesis. The reuse test findings showed optimum results at 1:2 variation and 2 hours of reaction time with total methyl ester conversion. In addition, the majority of the experiments performed were carried out using a 1:1 variation with a maximum of 3 repetitions, which consistently showed total conversion to methyl ester. Catalyst used was then characterized using FTIR, XRD, and XRF instruments, with the analysis results confirming that it was geopolymer-ZnO. Methyl ester obtained was analyzed using GC-MS, and the findings showed that the main compositions included methyl oleate (47.35%) and methyl palmitate (40.13%).
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Abdullah, M. M. A., Liew, Y. M., Heah, C. Y., & Muhammad, F. M. T. (2018). Clay-Based Materials in Geopolymer Technology. In R. O. . Saleh, H and Rahman (Ed.), Cement Based Materials (pp. 239–264). interchopen. https://doi.org/http://doi.org/10.5772/interchopen.74438
Alimuddin, A. H, Thamrin, U., Nelly, W., Rudiyansyah, Yopa, E. P., Ismail, A., & Yudi, Y. (2017). Synthesis and Characterization of Sn/Zeolite and Catalytic Activity Test in the Esterification Reaction of Slude Oil. AIP Conference Proceedings, 1823(1):020052. https://doi.org/https://doi.org/10.1063/1.4978125
Aqhilla, N., Edy, S., & Ahmad, F. (2017). Pembuatan Biodiesel dari Minyak Nyamplung dengan Menggunakan Katalis Basa Na2SiO3/Fe3O4. JOM FTEKNIK, 4(2), 1–5.
Arifah, M., Sri, H., & Y. (2016). Katalisis CPO menjadi Biodiesel dengan Katalis ZnO Sintesis Presipitan NaOH. Jom FTEKNIK, 3(1), 1–8.
Astar, I. (2017). Variasi Abu Tandan Kosong Kelapa Sawit terhadap Karakteristik Quintinite serta Uji Aktivitas Katalitik pada Reaksi Esterifikasi dan Transesterifikasi CPO secara Simultan. Tesis, Program Studi S2 Kimia, FMIPA, Universitas Tanjungpura.
BPH Migas. (2017). Konsumsi BBM Nasional per Tahun – Konsumsi BBM JBU, JBKP, JBT Dari Tahun 2006-2017. www.bphmigas.go.id/konsumsi-bbm-nasional
Bustaman, S. (2009). Strategi Pengembangan Industri Biodiesel Berbasis Kelapa di Maluku. Jurnal Litbang Pertanian, 28(2), 46–53.
Kondamudi, N., Mohapatra, S. K., & Misra, M. (2011). Quintinite as A Bifuncsional Heterogeneous Catalyst for Biodiesel Synthesis. Applied Catalysis A General, 393(1), 36-43.
Lee, D. W., Park, Y.M., & Lee, K. Y. (2009). Heterogeneous Base Catalysts for Transesterification in Biodiesel Synthesis. Catal Surv Asia, 13(2), 63–77. https://doi.org/10.1007/s10563-009-9068-6
Lestari, P. P. (2018). Pengaruh Nanokatalis ZnO/CaO terhadap Biodiesel dari Minyak Biji Alpukat. Jurnal Kimia Saintek Dan Pendidikan, II(1), 1–8.
Nugraha, I & Umi, K. (2017). Sintesis dan Karakterisasi Material Komposit Kaolin-ZVI (Zero Valent Iron) serta Uji Aplikasinya sebagai Adsorben Kation Cr (VI). Jurnal Kimia Valensi, 3(1), 59–70. https://doi.org/http://dx.doi.org/10.15408/jkv.v0i0.4650
Nugraha, M.W., Edy, S., & Zuchra, H. (2017). Sintesis Biodiesel dari Minyak Biji Nyamplung (Calophyllum inophyllum) menggunakan Katalis Geopolimer dari Abu Sekam Padi dan Kaolin. JOM FTEKNIK, 4(2), 1–5.
Poggetto, G. D., Antonio, D. A., Ignazio, B., Simona, P., Cristina, L., & Michelina, C. (2021). FT-IR Study Thermal Analysis and Evaluation of the Antibacterial Activity of a MK-Geopolymer Mortar Using Glass Waste as Fine Aggregate. Polymers, 13, 2970. https://doi.org/https://doi.org/10.3390/polym13172970
Prasetya, F. A., Sukmana, N.C., Roziqin, R., Deqi, N.F., Afifi, A.J., & Anggraini, U. (2018). Sintesis dan Karakterisasi Beton Geopolimer Berbasis Abu Layang sebagai Media Tanam. Jurnal Teknologia, 1(1), 21–26.
Priyambudi, I.Y. & Amirullah, M. R. F. (2017). Aplikasi Katalis Heterogen Fe2O3/CaO pada Pembuatan Biodiesel dari Minyak Kelapa Sawit. Brawijaya University.
Putri, P. C. A., & Edy, P. (2020). Transesterifikasi Minyak Kelapa Sawit menggunakan Katalis Kalsium Oksida (CaO) menjadi Biodiesel. Jurnal Metana, 16(2), 75–80.
Rustan M., Subaer, & Irhamsyah. (2015). Studi Tentang Pengaruh Nanopartikel ZnO (Seng Oksida) terhadap Kuat Tekan Geopolimer Berbahan Dasar Metakaolin, Jurnal Sains dan Pendidikan Fisika (JSPF). Jurnal Sains Dan Pendidikan Fisika, 11(3), 286–291.
Sa’adah, A. F., Akhmad, F., & Bambang, J. (2017). Peramalan Penyediaan dan Konsumsi Bahan Bakar Minyak Indonesia dengan Model Sintesis Dinamik. 17(2), 118–137.
Soerawidjaja. (2006). Fondasi-fondasi Ilmiah dan Keteknikan dari Teknologi Pembuatan Biodiesel. Seminar Nasional ”Biodiesel Sebagai Energi Alternatif Masa Depan, UGM, Yogyakarta.
Tambak, M. N. (2019). Regenerasi Katalis Zeolit Alam dan CaO dari Cangkang Telur Ayam pada Produksi Biodiesel Berbahan Baku Minyak Kelapa Sawit. Skripsi, Universitas Sumatera Utara, Medan.
Usman, T., Rudiansyah, Nelly, W., Astar, I., Yudistira, Y., Alimuddin, A.H., & Rahmalia, W. (2019). Tin-Empty Palm Bunch Ash Impregnated Zeolite as Suitable Catalyst for Simultaneous Transesterification-Esterification Reaction of Palm Oil. Seminar Nasional Material, 1–8.
Valerio, T. L., Guilherme, A. R. M., Leticia, F. G., Aline, V., Everson, P. B., & Paulo, R. P. R. (2019). Studi of the Nb2O3 Insertion in ZnO to Dye-sensitized Solar Cells. Materials Research, 22((Suppl. 1)), e20180864.
Wahyuni N., Imelda H. S., & Dina, A. (2019). Isoterm Adsorpsi Fenol oleh Lempung Alam, Jurnal Teknologi Lingkungan Lahan Basah. Jurnal Teknologi Lingkungan Lahan Basah, 7(1), 29–37.
Yunita, Nurlina, & Syahbanu, I. (2020). Sintesis Nanopartikel Zink Oksida (ZnO) dengan Penambahan Ekstrak Klorofil sebagai Capping Agent. Positron, 10(2), 123–130.
Zulkifli, M., Subaer, & Nurhayati. (2019). Sintesis Geopolimer Berbahan Dasar Lempung Laterite dengan Penambahan ZnO sebagai Komposit Fungsional,. Jurnal Sains Dan Pendidikan Fisika (JSPF), 15(3), 86–89.
DOI: https://doi.org/10.22146/agritech.80468
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