Proses hidrodesulfurisasi pada umpan Lube Base Oil (LBO) dilakukan menggunakan katalis NiMo/γ-Al2O3 dengan nama C3P20. Tahap penelitian meliputi pembuatan katalis; karakterisasi katalis (luas permukaan, distribusi ukuran pori, dan volume pori); serta uji aktivitas katalis untuk memperoleh persentase penurunan kadar sulfur tertinggi. Proses hidrodesulfurisasi dilakukan pada sampel LBO yang telah ditambah dengan dibenzothiopen sebanyak 7500 ppm (0,75%-b) dan dilakukan dalam sistem batch microreactordengan variasi suhu operasi yaitu573,588,dan 603 K serta waktu pengambilan sampel pada menit ke- 60, 90 dan 120. Sampel sebelum dan setelah proses dianalisis kadar sulfurnya menggunakan instrumen TNTS (Total Nitrogen/Total Sulfur) dan analisis gugus fungsi menggunakan spektrofotometer FTIR. Hasil penelitian menunjukkan energi aktivasi yang dihasilkan yaitu sebesar 6,7828 KJ/mol dan suhu optimum untuk proses hidrodesulfurisasi pada penelitian ini yaitu pada suhu 588 K analisis menggunakan FTIR tidak menunjukkan adanya spektrum sulfur. Kata kunci: Katalis,NiMo/γ-Al2O3, Hidrodesulfurisasi, LubeBaseOil (LBO), Energi aktivasi (Ea).

Hydrodesulfurization process of Lube Base Oil (LBO) was performed by using NiMo/γ-Al2O3 that was named C3P20. Phase of research included catalyst preparation; characterization (surface area, surface area, pore size and pore volume); as well as the catalytic activity test for obtaining the highest percentage reduction of sulfur levels. Hydrodesulfurization process was performed on samples that have been added to LBO dibenzothiophene as much as 7500 ppm (0,75%-wt). It was carried out in a batch microreactor systems with variation in operating temperature condition 573, 588, and 603K. Sampling time in 60thminute, 90th, and 120th. Samples was analyzed before and after hidrodesulfurized to determine the sulfur content using Total Nitrogen/ Total Sulfur (TNTS) instrument, and analysis of functional groups using FTIR spectrophotometer. The result showed that the activation energy generated is equal to 6.7828 KJ / mol and the optimum temperature for hydrodesulfurization process at 588 K, and FTIR analysis showed no sulfur spectrum detected. Keywords: Catalysts, NiMo/γ-Al2O3, Hydrodesulfurization, Lube Base Oil (LBO), Activation energy (Ae).

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