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I M. S. Negara
Program Studi Kimia, FMIPA, Universitas Udayana, Bali, Indonesia
Chemistry

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KARAKTERISTIK FISIKO-KIMIA KATALIS HETEROGEN CaO-BASE DAN PEMANFAATANNYA UNTUK KONVERSI MINYAK GORENG BEKAS SECARA SINAMBUNG MENJADI BIODIESEL I N. Simpen; I M. S. Negara; O. Ratnayani
Jurnal Kimia (Journal of Chemistry) Vol. 15, No.2, Juli 2021
Publisher : Program Studi Kimia, FMIPA, Universitas Udayana (Program of Study in Chemistry, Faculty of Mathematics and Natural Sciences, Udayana University), Bali, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24843/JCHEM.2021.v15.i02.p09

Abstract

Penelitian tentang katalis heterogen berbasis CaO dari cangkang kepiting sebagai support yang dimodifikasi dengan K2CO3 dan TiO2 serta pemanfaatnnya untuk konversi minyak goreng bekas secara sinambung menjadi biodiesel telah dilakukan. CaO hasil preparasi dicampurkan dengan K2CO3 dan TiO2 dengan variasi rasio secara reaksi fasa padat. Katalis heterogen yang diperoleh dikarakterisasi luas permukaan spesifik BET dan rerata ukuran partikelnya dengan N2 gas sorption analyzer, keasaman dan kebasaan permukaannya dengan metode titrasi asam basa, serta kristalinitasnya dengan XRD. Katalis dengan karakteristik terbaik diuji aktivitas katalitiknya terhadap yield biodiesel dalam mengonversi minyak goreng bekas dan kandungannya dianalisis menggunakan GC-MS. Hasil yang diperoleh menunjukkan bahwa karakteristik fisiko-kimia katalis optimum diperoleh pada CaO/K2O:TiO2 rasio massa 3:1. Uji aktivitas katalitik untuk konversi minyak goreng bekas menjadi biodiesel diperoleh yield 88,24%, lebih tinggi dari CaO/K2O (65,03%) dan CaO (64,09%). Analisis GC-MS menunjukkan bahwa komposisi biodiesel yang dominan adalah metil ester, yaitu metil laurat, metil meristat, metil palmitoleat, dan metil linoleat. Kata kunci: biodiesel, CaO/K2O:TiO2, katalis heterogen, karakteristik fisiko-kimia, minyak goreng bekas Research about heterogeneous catalyst prepared from CaO of crab shells as support modified with K2CO3 and TiO2 as well as its utilization for converting used cooking oil (UCO) into biodiesel simultaneously has been carried out. Prepared CaO was mixed with K2CO3 and TiO2 with various ratios by using solid state reaction. The BET spesific surface area and the mean particle size of the resulting heterogenous catalyst were characterized by N2 gas sorption analyzer, surface acidity and basicity by base-acid titration method, and crystallinity by XRD. The activity of the catalyst with the best characteristics for converting UCO into biodiesel yield was tested and the chemical contents were analyzed by GC-MS. The results showed that the optimum physico-chemical characteristics of the heterogeneous catalyst was CaO/K2O:TiO2 with mass ratio of 3:1. The catalytic activity of the CaO/K2O/TiO2 catalyst in converting UCO into biodiesel was 88.24%, higher than CaO/K2O catalyst (65.03%) and CaO (64.09%). The results of GC-MS analysis indicated that the chemical contents of biodiesel were dominantly methyl esters, such as methyl laurate, methyl meristate, methyl palmitoleate, methyl palmitate, and methyl linoleate. Keywords: biodiesel, CaO/K2O:TiO2, heterogeneous catalyst, physico-chemical characteristics, used cooking oil
BIOSORPSI Cr(III) OLEH BIOSORBEN KULIT KAPUK (Ceiba pentandra (L.) Gaertn) TERAKTIVASI ASAM NITRAT I W. Sudiarta; A. A. S. D. Prameswari; I M. S. Negara
Jurnal Kimia (Journal of Chemistry) Vol. 16, No.1, Januari 2022
Publisher : Program Studi Kimia, FMIPA, Universitas Udayana (Program of Study in Chemistry, Faculty of Mathematics and Natural Sciences, Udayana University), Bali, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24843/JCHEM.2022.v16.i01.p12

Abstract

Kulit buah kapuk (Ceiba pentandra (L.) Gaertn) merupakan limbah pertanian yang kurang dimanfaatkan. Kulit buah kapuk mengandung senyawa organik seperti selulosa, hemiselulosa, dan lignin yang cukup tinggi. Komponen tersebut mengandung gugus hidroksil (-OH), karbonil (-C=O), dan karboksil (-COOH) yang dapat digunakan dalam proses biosorpsi. Penelitian ini bertujuan untuk mengetahui karakteristik biosorben kulit kapuk teraktivasi HNO3, kondisi optimum biosorpsi ion logam Cr (III), dan kapasitas biosorpsi biosorben kulit kapuk. Parameter yang dipelajari dalam penentuan karakteristik biosorben meliputi keasaman permukaan, jumlah situs akif, luas permukaan, dan gugus fungsi yang berperan dalam biosorpsi. Optimasi kondisi biosorpsi ion logam Cr (III) dilakukan dengan menentukan pH, waktu kontak, dan konsentrasi awal larutan Cr (III). Hasil penelitian menunjukkan bahwa biosorben teraktivasi HNO3 0,02 M (BAN3) memiliki karakteristik keasaman permukaan, jumlah situs aktif, dan luas permukaan berturut-turut sebesar 17,79490,5999 mmol/g, 1,07160,0361×1022 molekul/gram, dan 36,941470,00158 m2/g. Kondisi optimum biosorpsi ion logam Cr (III) pada pH 5, waktu kontak 90 menit, konsentrasi awal larutan Cr (III) 1800 mg/L. Proses biosorpsi mengikuti pola isoterm Langmuir dengan nilai R2 sebesar 0,975 dan kapasitas biosorpsi sebesar 59,28 mg/g. Karakterisasi menggunakan FTIR menunjukkan bahwa biosorben mengandung gugus fungsi seperti –OH, C=O, C-O-H, dan C-O-C yang berperan dalam proses biosorpsi. Kata kunci: Biosorpsi,biosorben, Cr (III), kulit buah kapuk. Kapok husk (Ceiba pentandra (L.) Gaertn) is an under-utilized agricultural waste. Kapok husk contains quite high percentage of organic compounds such as cellulose, hemicellulose, and lignin. Those compounds contain hydroxyl groups (-OH), carbonyl group (-C=O), and carboxyl group (-COOH) that can be used in the biosorptions process. This study aimed to determine the characteristic of the biosorbent activated by HNO3, the optimum conditions of the Cr (III) biosorption, and the biosorption capacity of the biosorbent. The parameters studied for determining characteristics of the biosorbent were surface acidity, number of active sites, surface specific area, and functional groups that play a role in the biosorption. Optimation condition of the Cr (III) biosorption was carried out by determining the pH, contact time, and initial concentration of Cr (III). The result showed that the activated kapok husk powder with HNO3 0,02 M (BAN3) has characteristics of surface acidity, the number of active site and surface specific area of 17,79490,5999 mmol/g, 1,07160,0361×1022 molecule/gram and 36,941470,00158 m2/g respectively. The optimum conditions of the Cr (III) biosorption were obtained at pH 5, contact time 90 minutes, and initial concentration of Cr (III) at 1800 mg/L. Isotherm biosorption followed the Langmuir isotherm model with R2 value of 0,975 and biosorption capacity of 59,28 mg/g. Characterization using FTIR showed that biosorbent contained -OH, C=O, C-O-H, dan C-O-C functional groups which played a role in the biosorption process. Keywords: Biosorption, biosorbent, Cr (III), kapok husk.
Co-Authors A. A. S. D. Prameswari I Nengah Simpen I Wayan Sudiarta O. Ratnayani