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Abstrak :
ABSTRAK Penelitian ini bertujuan untuk mengetahui apa saja risiko-risiko yang yang terjadi dalam proses penyaluran/pendistribusian bahan bakar bersubsidi yang berpotensi pemerintah menanggung kerugian. Hasil penelitian ini menunjukkan bahwa dalam proses penyaluran/pendistribusian bahan bakar bersubsidi yang selama ini berjalan masih terdapat risiko-risiko yang mungkin dapat terjadi. Risiko-risiko tersebut adalah risiko penyusutan alamiah, risiko penyaluran kepada yang berhak atas bahan bakar bersubsidi, dan risiko penentuan harga bahan bakar yang berdampak pada perhitungan jumlah subsidi yang harus ditanggung oleh pemerintah.

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ABSTRAK
This research aims to find out risks that may occur in a distribution process of subsidized fuel which, in turn, potentially incur losses to the government.Research results show that in what has hitherto been the running, standard process of subsidized fuel distribution, the risks are still extant.These risks are: risk of natural depreciation (of prices), risk of distribution of subsidized fuel for the entitled party, and risk of fuel pricing which has impact to the calculation of the amount of subsidy that must be borne by the government.

Abstrak :
Sejak tahun 2005, konsumsi avtur di Indonesia selalu lebih besar dari produksi kilang nasional. Kebutuhan avtur yang tidak terpenuhi jika hanya menggunakan energi fosil mendorong upaya pencarian bahan bakar pesawat alternatif, salah satunya adalah bioavtur. Bioavtur merupakan bahan bakar nabati generasi kedua yang dapat dijadikan alternatif bagi bahan bakar jet avtur untuk memenuhi kebutuhan nasional Indonesia serta mendukung Rencana Aksi Nasional Penurunan Emisi Gas Rumah Kaca. Sintesis bioavtur pada penelitian ini menggunakan biodiesel/metil ester untuk memanfaatkan lebihan produksi biodiesel di Indonesia. Untuk memudahkan karakterisasi produk, digunakan senyawa model dari metil ester biodiesel yaitu metil oleat. Sintesis dilakukan melalui proses hidrodeoksigenasi dan perengkahan katalitik dengan katalis NiMo/zeolit. Proses hidrodeoksigenasi dilakukan pada kondisi tekanan 24 bar dan suhu 375 C selama 4 jam, dan reaksi perengkahan katalitik dilakukan pada suhu 375 C selama 2 jam. Perengkahan katalitik dilakukan dengan 2 variasi loading katalis, yaitu 1 dan 5. Produk bioavtur yang dihasilkan telah memenuhi SNI avtur untuk viskositas dan densitas, yaitu sebesar 3,34 cSt dan 0,839 g/mL. Dengan kondisi perengkahan katalitik pada suhu 375 C dan loading katalis sebesar 5, katalis NiMo/zeolit mampu melakukan sintesis bioavtur dengan yield sebesar 34,27, selektivitas 26,25, dan konversi sebesar 91,27. Hasil tersebut belum optimum namun dapat dijadikan referensi untuk penelitian lebih lanjut.

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Since 2005, aviation fuel consumption in Indonesia has always been greater than the production of national refineries. Aviation fuel needs that are not fulfilled if using only fossil energy encourages the search effort of alternative fuels, one of which is bioavtur. Bioavtur is a second generation biofuel that can be used as an alternative to jet fuel aviation fuel to meet Indonesia 39s national needs and support the National Action Plan for Greenhouse Gas Emission Reduction. The bioavtur synthesis in this study used biodiesel methyl esters to utilize excess biodiesel production in Indonesia. To facilitate product characterization, methyl oleate is used as a model compound of methyl ester biodiesel. Synthesis is done through hydrodeoxigenation process and catalytic cracking with NiMo zeolite catalyst. The hydrodeoxigenation process was carried out under the condition of 24 bar and 375 C for 4 hours, and the catalytic cracking reaction was carried out at 375 C. for 2 hours. Catalytic cracking was performed with 2 variations of catalyst feed ratio, i.e. 1 and 5. The resulting bioavtur product has fulfilled the SNI of avtur for viscosity and density, that is equal to 3,34 cSt and 0,839 g mL respectively. Under catalytic cracking conditions at 375 C and 5 catalyst loading, NiMo zeolite catalysts were able to synthesize bioavtur with yields of 34.27, selectivity of 26.25, and conversion of 91.27. The results are not yet optimum but can be used as a reference for further research.

Abstrak :
Research of UMo fuel for research reactor has been developing right now. The fuel of research reactor used is uranium low enrichment with high density. For supporting the development of fuel, an assessment of mini fuel in the RSG-GAS core was performed. The mini fuel are U7Mo-Al and U6Zr-Al with densitis of 7.0gU/cc and 5.2 gU/cc, respectively. The size of both fuel are the same namely 630x70.75x1.30 mm were inserted to the 3 plates of dummy fuel. Before being irradiated in the core, a calculation for safety analysis from neutronics and thermohydrolics aspects were required. However, in this paper will discuss safety analysis of the U7Mo-Al and U6Zr-Al mini fuels from neutronic point of view. The calculation was done using WIMSD-5B and Batan-3DIFF code. The result showed that both of the mini fuels could be irradiated in the RSG-GAS core with burn up less than 70 % within 12 cycles of operation without over limiting the safety margin. Power density of U7Mo-Al mini fuel bigger than U6Zr-Al fuel.