Penelitian oksidasi dibenzotiofena untuk penghilangan senyawa sulfur (ODS-DBT) menggunakan katalis ZnO-Pasir silika bermagnet dari pantai Parangtritis (ZnO-PP) telah dilakukan. Penelitian dilakukan dengan tujuan mempelajari karakter katalis pasir silika bermagnet (PP) dan ZnO-PP serta mempelajari kondisi optimum aktivitas katalitik katalis ZnO-PP pada reaksi ODS-DBT melalui variasi temperatur dan waktu reaksi, serta volume H2O2 sebagai oksidan. Katalis ZnO-PP dipreparasi dengan metode blending solid-solid. Hasil preparasi katalis ZnO-PP kemudian dikarakterisasi menggunakan SEM-EDX, FITR, XRD, TEM, dan SAA, serta diuji keasamanaannya menggunakan metode gravimetri adsorpsi uap basa NH3. Aktivitas katalitik ZnO-PP dilakukan dengan variasi suhu sebesar 30, 40, 50, dan 60 °C. Pada kondisi variasi suhu optimum dilakukan variasi waktu selama 10, 20, 30, dan 40 menit, serta dilakukan variasi volume H2O2 sebesar 0,21; 0,42 dan 0,63 mL. Katalis PP dan ZnO-PP mempunyai karakter kemagnetan yang dapat ditarik dengan magnet eksternal dan memiliki nilai total keasaman sebesar 1,48 dan 1,69 mmol/g. Hasil karakterisasi pada katalis ZnO-PP menunjukkan adanya karakter ZnO, SiO2, Fe3O4, Al2O3, dan Fe2O3 dengan morfologi katalis yang berbentuk heksagonal kubik. Aktivitas katalis ZnO-PP pada reaksi katalitik ODS-DBT optimum pada variasi temperatur dan waktu reaksi 60 °C dan 20 menit, serta volume H2O2 sebesar 0,42 mL dengan penurunan konsentrasi DBT sebesar 82,66%.

Research on the oxidation of dibenzothiophene to remove sulfur compounds (ODS-DBT) using a ZnO-magnetic silica sand catalyst from the Parangtritis coast (ZnO-PP) has been carried out. The research was conducted with the aim of studying the character of the magnetic silica sand from Parangtritis (PP) and ZnO-PP catalyst and studying the optimum conditions for the catalytic activity of ZnO-PP catalyst in the ODS-DBT reaction through variations in temperature and reaction time, as well as the volume of H2O2 as an oxidizing agent. The ZnO-PP catalyst was prepared by solid-solid blending method. The results of the preparation of the ZnO-PP catalyst were then characterized using SEM-EDX, FITR, XRD, TEM, and SAA, and tested using the NH3 alkaline vapor adsorption gravimetric method. The catalytic activity of ZnO-PP was carried out with temperature variations of 30, 40, 50, and 60 °C. Under conditions of optimum temperature variation, time variations were carried out for 10, 20, 30, and 40 minutes, and the volume of H2O2 was varied by 0.21; 0.42 and 0.63 mL. The PP and ZnO-PP catalysts have magnetic characteristics that can be attracted by external magnet and have a total acidity of 1.48 and 1.69 mmol/g. The results of the characterization of the ZnO-PP catalyst showed the presence of ZnO, SiO2, Fe3O4, Al2O3, and Fe2O3 characters with a cubic hexagonal shaped catalyst. The activity of ZnO-PP catalyst in the optimum ODS-DBT catalytic reaction at variations of temperature and reaction time of 60 °C and 20 minutes, and the volume of H2O2 is 0.42 mL with a DBT concentration reduction efficiency of 82.66%.

Kata Kunci : dibenzotiofena, oksidasi desulfurisasi, pasir pantai Parangtritis, ZnO