Katalis Ni-Mo/ Al2O3 telah dikembangkan untuk pembuatan bahan bakar diesel terbarukan dari hidrotreating minyak kemiri sunan. Preparasi katalis Ni-Mo/g Al2O3 dilakukan dengan metoda ko-impregnasi basah dan dikarakterisasi dengan teknik N2-BET, XRD dan SEM. Hidrotreating minyak kemiri sunan dilakukan dengan menggunakan reaktor autoclave berpengaduk semi batch pada kondisi operasi suhu reaksi 350 – 400°C, tekanan hidrogen 30 – 60 bar dan konsentrasi katalis terhadap minyak 1 – 3% berat. Diantara hasil pengujian proses hidrotreating minyak kemiri sunan pada kondisi operasi suhu reaksi 400oC, tekanan hidrogen 60 Bar dan konsentrasi katalis terhadap minyak 2% berat memberikan hasil maksimum untuk hidrokarbon rentang minyak diesel sebesar 31,16% berat. Spektrum IR dari produk bahan bakar diesel terbarukan memiliki kemiripan dengan minyak solar.

hidrotreating, katalis, reaktor autoclave, minyak kemiri sunan, bahan bakar diesel terbarukan, minyak solar.

Anonymous, 2013, “Potensi Kemiri Sunan Sebagai

Alternatif Bahan Bakar Biodiesel,” Samro

Technology Indonesia.

Atthapon Srifa., Kajornsak Faungnawakij.,

Vorranutch Itthibenchapong., Suttichai

Assabumrungrat, 2015, “Role of Monometallic

Catalyst in Hydrodeoxygenation of Palm Oil”,

Chemical Engineering Journal, 278 (2015) 249-258

Atthapon Srifa., Kajornsak Faungnawakij.,

Vorranutch Itthibenchapong., Nawin Viriya-

Empikul., Tawatchai Charinpanitkul., Suttichai

Assabumrungrat, 2014, “Production of biohydrotreated

diesel by catalytic hydrotreating

of palm oil over NiMoS2/γ Al2O3 catalyst”,

Bioresource Technology 158 (2014) 81-90.

Bambang Veriansyah., Jae Young Han., Seok ki

Kim., Seung-Ah Hong., Young Jun Kim., Jong

Sung Lim., Young-Wong Shu., Seong-Geun Oh.,

Jaehoon Kim, 2012, “Production of renewable

diesel by hydroprocessing of soybean oil: Effect

of Catalysts”, Fuel 94 (2012) 578-585

Bambang Heru Susanto., Mohammad Nasikin.,

Sukirno., Adri Wijo, 2014, “Synthesis of

Renewable Diesel Through Hydrodeoxygenation

Using Pd/zeolite Catalysts”, Procedia Chemistry,

(2014) 139-150.

Dibyo Pranowo, 2014, “Pembuatan Biodiesel dari

Kemiri Sunan (Reutealis Trisperma (Blanco) Airy

Shaw) dan Pemanfaatan Hasil Samping”, IAARD

Press.

Haerudin, H., Tursiloadi, S., Widiyarti, G., &

Wuryaningsih, W. S, 2003, ”Pengaruh Metode

Preparasi Pada Katalis Nikel Dengan Penyangga

Bentonit”, Indonesian Journal of Chemistry, 3 (2),

hal. 118-125.

Jing Liu., Kai Fan., Weiqian Tian., Can Liu., Long

Rong, 2012, “Hydroprocessing of Jatropha Oil over

NiMoCe/Al2O3 Catalyst”, International journal of

Hydrogen Energy, XXX (2012) 1-7.

Lars Peter Linfors, 2010, “High Quality Transportations

Fuels From Renewable Feedstock”, XXI World

Energy Congress, September 12-16, 2010,

Montreal Canada.

Lalita Attanatho, 2012, “Perfomance and Kinetic

Studies of Hydrotreating of Bio-Oils in

Microreactor”, Oregon States University, Agustus

M. Krar, et all, 2009, “Fuel Purpose Hydrotreating

of vegetable Oil on NiMo- Al2O3 Catalyst”,

Hungarian Journal of Industrial Chemistry”, vol

(2) pp. 107-111, 2009

Patrick Miller, 2012, “Techno-Economic Analysis of

Renewable Diesel Production from Canola and

Camelina”, University of Alberta, Canada, 2012

Rogelio Sotelo-Boyas., Fernando Trejo-Zarrage

and Felipe de Jesus Hernandez-Loyo, 2012,

“Hydroconversion of Triglycerides into Green

Liquid Fuels”, INTECH.

Rasmus Egeberg., Niels Michaelsem., Lars Skyyum.,

and Per Zeuthen, 2010, “Hydrotreating in the

Production of Green Diesel”, Haldor Topsoe.

Shaofeng Gong., Akira Shinozaki., Mingliang

Shi., dan Eika W. Qian, 2012, “Hydrotreating

of Jatropha oil over Alumina Based Catalysts”,

Energy Fuels 2012, 26, 2394-2399.

Subagjo, 2014, “Pengembangan Proses Produksi

BBN di Lab. Teknik Reaksi Kimia & Katalisa”,

Kolokium Hasil Litbang P3TKEBTKE, 18

November 2014, Jakarta

Ulfah, M., dan Subagjo, 2012, “Pengaruh Perbedaan

Sifat Penyanggah Alumina Terhadap Sifat Katalis

Hydrotreating Berbasis Nikel-Molibdenum”,

Reaktor, 14, 151-157

Vossen, HAM dan B.E. Umali, 2002, “Plant Resources

of South East Asia” No 14.Prosea Foundation.

Bogor, Indonesia.