Telah dipelajari hidrodeoksigenasi campuran 3-metil- 1-bum01 dan 1-propanol; pengaruh 1 -propano1 terhadap konversi campuran 3-metil- 1 -butan01 dan 1-propanol menjadi hidrokarbon; pengaruh air terhadap konversi campuran 3-metil-1-butanol, 1-propanol dan air menjadi hidrokarbon serta karakterisasi katalis Ptheolit-alam (Pt 0,2%) bentuk serbuMgranular yang digunakan sebagai katalis. Preparasi katalis Wzeolit-alam dilakukan dengan mengembankan logam Pt ke dalam zeolit alam sebanyak 0,2% dengan m a refluks antara zeolit-alam dengan larutan H,PtCl,, dipanaskan pada temperatur 200 "C dan temperatur 400 "C. Katalis Wzeolit-dam selanjutnya dikalsinasi pada temperatur 600 "C dengan dialiri gas nitrogen, kemudian dioksidasi dengan gas oksigen dan direduksi dengan gas hidrogen pada temperatur 400 "C. Karakterisasi katalis Wzeolit-alam dilakukan dengan menggunakan Suvace Area Analyzer Nova-IOOO untuk menentukan luas muka, volume total pori dan rerata jejari pori serta penentuan keasaman katalis dengan metode gravimetri. Aktivitas katalis diuji terhadap campuran 1-propanol dan 3-metil- 1-butanol dengan memvariasi jumlah 1-propanol serta campuran 3-metil- 1-butanol, 1-propanol dan air dengan memvariasi jumlah air pa& temperatur optimum 450 "C. Produk yang dihasilkan dianalisis dengan menggunakan GC dan GC-MS. Hail karakterisasi terhadap katalis Wmlit-dam memberikan keasaman 4,2738 mmol/gram; luas muka spesifik 22,9878 m2/g; volume total pori 0,0494 mL/g dan rerata jejari pori 42,97Y3 A. Adapun pengaruh 1-propanol terhadap campwan 3-metil-1-butanol dan 1-propanol menunjukkan kenaikan konversi dari 4,78% hingga 10,22%. Sedangkan pengaruh air terhadap campuran 3-r~etil-l-butan01, 1-propanol dan air menunjukkan penurunan konversi dari 12,70% menjadi 7,lO%. Hasil analisis GC-MS dari konversi campuran antara 3-metil-1-butanol dan 1-propanol diduga adalah cis-l,2dimetil-~iklopropan(a3 ,78 %); 2-metil-1-propanol (3,07 %) dan 3-metilbutanal (51,99%).

Hydrodeoxygenation reaction 3-methyl- 1 -butanol and 1 -propano1 as well as the influence of 1-propanol and water on the conversion of mixtures of 3-methyl- 1 -butanol, 1-propanol and water to hydrocarbon and characterization of the granular catalyst used (Pt 0.2 %/natural-zeolite) have been studied. The catalyst preparation was carried out by impregnating 0.2% Pt on natural-zeolite by reflux in H2PtC1, solution, being heated at 200 O C and 400 OC, calcinated by nitrogen at 600 OC, oxidized by oxygen and reduced by hydrogen gas at 400 OC. The properties of FW'natural-zeolite mainly their surface area, pore volume, pore radii averages as well as pore size distribution were characterized by Suvace Area Analyzer Nova-1000 and acidity by gravimetric method. The catalyst activities were tested on variation of mixtures of 1-propanol and 3-methyl-1- butanol and mixtures of 3-methyl- 1-butanol, 1-propanol and water at optimum temperature of 450 O C , respectively. Product conversion was analyzed by GC and The results showed the acidity of 4.2738 mmol/gram; specific surface area of 22.9878 m2/g; pore total volume of 0.0494 mL/g and pore radii averages of 42.9737 A were obtained. The influence of 1-propanol in 3-methyl-1-butanol showed that the conversion increased from 4.78% to 10.22%, whereas water caused the conversion to decrease from 12.70% to 7.10%. Based on the GC-MS analysis, the products were predicted as cis-l,2-dimethyl-cyclopropane(3 .78 %); 2-methyl-l-propanol(3.07% ) and 3-methyl-butanal (51 .99% ), respectively

Kata Kunci : Katalis Zeolit,Hidrodeoksigenasi