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"Bio-hidrokarbon dapat dihasilkan dari konversi asam lemak minyak nabati non-pangan melalui reaksi perengkahan katalitik. Pada penelitian ini dilakukan perengkahan minyak jarak kepyar untuk menghasilkan bio-hidrokarbon dengan bantuan katalis zeolite. Katalis zeolite didapatkan dari preparasi fly-ash dengan metode pencucian asam (HCl) dan peleburan alkali (NaOH), yang kemudian diimpregnasi dengan atom boron (B) dan fosfor (P) untuk memodifikasi keasamannya. Untuk mendapatkan konversi minyak jarak kepyar setinggi mungkin, maka dilakukan variasi suhu reaksi (450, 500, dan 550°C) serta variasi katalis. Hasil reaksi perengkahan berupa bio-oil akan dikarakterisasi dengan GC-MS dan FTIR; sedangkan hasil preparasi katalis dikarakterisasi dengan XRD dan XRF. Berdasarkan hasil penelitian, minyak jarak kepyar berhasil dikonversi menjadi senyawa bio-hidrokarbon. Konversi terbesar dihasilkan oleh variasi katalis zeolite fly-ash terimpregnasi 5%wt boron (5%B/FA) pada suhu 550°C sebesar 72.86% dan variasi rasio massa katalis terhadap minyak umpan 10%wt pada suhu 550°C sebesar 81.55%. Berdasarkan hasil GC-MS, katalis campuran boron dan fosfor dengan rasio massa 10% terhadap minyak umpan (10%wt B/P/FA) memiliki selektivitas terhadap senyawa alkana dan alkena yang terbesar, masing-masing sebesar 24.77% dan 21.07%. Sedangkan jika ditinjau berdasarkan sifat fisiknya, karakteristik dari bio-hidrokarbon hasil variasi katalis zeolite fly-ash terimpregnasi 1%wt fosfor (1%P/FA) pada suhu 550°C bersifat mendekati standar biodiesel dengan nilai densitas, viskositas kinematik, dan angka RON masing-masing sebesar 796 kg/m3, 2.72 cSt dan 87.

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Bio-hydrocarbons can be produced through the catalytic cracking of non-edible vegetable oil fatty acids. In this study, the cracking of castor oil was conducted to produce bio-hydrocarbons using zeolite catalyst. The zeolite catalyst was obtained from fly ash through acid (HCl) leaching and alkali (NaOH) fusion methods, followed by impregnation with boron (B) and phosphorus (P) atoms to modify its acidity. To achieve the highest possible conversion of castor oil, reaction temperature variations (450, 500, and 550°C) and catalyst variations were performed. The resulting cracking products, in the form of bio-oil, were characterized using GC-MS and FTIR, while the prepared catalysts were characterized using XRD and XRF. Based on the research result, castor oil was successfully converted into bio-hydrocarbon compounds. The highest conversion was achieved with the 5%wt boron-impregnated fly ash zeolite catalyst (5%B/FA) at 550°C by 72.86%, also the variation of a catalyst-to-feedstock mass ratio of 10%wt at 550°C, resulting in 81.55% conversion. According to the GC-MS analysis, the catalyst with a 10%wt boron and phosphorus mixture (10%wt B/P/FA) exhibited the highest selectivity towards alkane and alkene compounds, at 24.77% and 21.07% respectively. When considering the physical properties, the bio-hydrocarbon produced using a 1%wt phosphorus-impregnated fly ash catalyst (1%P/FA) at 550°C exhibited characteristics close to biodiesel standards, with density, kinematic viscosity, and research octane number values of 796 kg/m³, 2.72 cSt, and 87 respectively."

"Pada penelitian ini dilakukan sintesis senyawa ester gliserol oleat serta ester gliserol asam lemak hasil hidrolisis minyak jarak menggunakan enzim lipase Candida rugosa dalam pelarut n-heksana. Dilakukan pula optimasi reaksi melalui perbandingan mol asam lemak:gliserol, yaitu 1:1, 1:2, 1:3, dan 1:4. Persen konversi tertinggi diperoleh pada perbandingan mol asam lemak:gliserol 1:4 dengan nilai persen konversi 86,26 ester gliserol oleat dan 92,32 untuk ester gliserol asam lemak hasil hidrolisis minyak jarak. Produk esterifikasi dikarakterisasi menggunakan instrumen FTIR.Spektrum FTIR menunjukkan adanya gugus identik C=O ester pada bilangan gelombang 1748,25 cm-1 dan 1735,37 cm-1 berturut-turut untuk ester gliserol oleat dan ester gliserol asam lemak. Kedua ester kemudian diuji emulsifier dan antimikroba untuk membuktikan adanya sifat emulsifier dan aktivitas antimikroba.Hasil dari uji emulsifier menunjukkan bahwa tipe emulsi dari kedua jenis ester tersebut adalah air dalam minyak. Uji aktivitas antimikroba menunjukkan bahwa ester gliserol asam lemak hasil hidrolisis pada konsentrasi 80 w/w memiliki aktivitas inhibisi yang paling kuat terhadap Propionibacterium acne dan Staphylococcus epidermidis, sedangkan ester gliserol oleat tidak menunjukkan adanya aktivitas antimikroba terhadap kedua bakteri uji.

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In this study, synthesis of glycerol ester oleic and glycerol ester castor oil fatty acid using lipase Candida rugosa in n hexane solvent was carried out. Optimization reaction was also carried out through mol ratio variation of fatty acid glycerol, 1 1, 1 2, 1 3, and 1 4. The highest conversion percentage obtained at the mole ratio 1 4, which valued 86,26 for glycerol ester oleic and 92,32 for glycerol ester castor oil fatty acid. The esterification products were characterized by FTIR instrument.

The FTIR spectrum showed the presence of identical group of C O ester at wave number 1748,25 cm 1 and 1735,37 cm 1 for glycerol ester oleic and glycerol ester castor oil fatty acid, respectively. Both esters were then examined by emulsifier and antimicrobial test to prove the ability of emulsifying and its antibacterial activity.

The results of the emulsifier test turn that the emulsion type of both esters are oil in water. The antibacterial activity test indicate that ester glycerol castor oil fatty acid at 80 concentration w w performed strongest inhibition activity against propionibacterium acne and Staphylococcus epidermidis, while glycerol ester oleic had no activity against both bacteria."