<> "The repository administrator has not yet configured an RDF license."^^ . <> . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA"^^ . "Penelitian ini bertujuan menyelesaikan persamaan konduksi panas untuk batang\r\nbahan bakar menggunakan metode runge kutta dan memperoleh nilai parameter\r\ntermal-hidrolik seperti distribusi temperatur aksial pendingin, penurunan tekanan,\r\nkoefisien transfer panas dan distribusi temperatur radial bahan bakar. Dengan\r\nasumsi perpindahan panas reaktor pada kondisi tunak (tidak bergantung waktu)\r\ndiketahui temperatur pendingin inlet adalah 450 oC, dan diperoleh outlet sebesar\r\n482,01 oC serta koefisien transfer panas konveksi hs sebesar 2,51 W/cm2 oC.\r\nPenurunan tekanan akibat friksi diperoleh sebesar 0,17 bar, penurunan tekanan\r\nakibat bentuk (form) sebesar 0,31 bar, penurunan tekanan akibat gravitasi sebesar\r\n0,21 bar dan penurunan tekanan total yaitu 0,69 bar. Sedangkan temperatur pada\r\nbatang bahan bakar diperoleh nilai maksimum pada garis-tengah bahan bakar\r\nyaitu 2720,34 oC dan temperatur terendah batang bahan bakar pada permukaan\r\nkelongsong yaitu 488,82 oC.\r\n\r\nKata kunci: Termal-hidrolik, Runge Kutta, GCFR\r\nThe Research of Gas Cooled Fast Reactor (GCFR) thermal-hydraulics analysis\r\nhas been done. This reseacrh aim to solve fuel rod heat conduction equation by\r\nrunge kutta method and to get thermal-hydraulics parameters such as coolant\r\naxial temperature distribution, pressure drops, convection heat transfer\r\ncoefficient, and fuel rod radial temperature distribution. Heat transfer of the\r\nreactors was assumted steady state (time independent) then obtained coolant inlet\r\ntempertaure about 450 oC, outlet temperature about 482,01 oC and convection\r\nheat transfer coefficient h about 2,53 W/cm2 oC. Pressure drop by friction was\r\n0,17 bar, pressure drop by form was 0,31 bar, pressure drop by gravity was 0,21\r\nbar and total pressure drop was 0,69 bar. While centerline fuel obtained the\r\nmaximum temperature of fuel rod about 2720,33 oC and the lowest fuel rod\r\ntemperature at cladding surface about 488,82 oC.\r\n\r\nKeywords: Thermal-hydraulics, Runge Kutta Decomposition, GCFR"^^ . "2019" . . . . . "FAKULTAS MATEMATIKA DAN ILMU PENGETAHUAN ALAM"^^ . . . . . . . "1417041003"^^ . "Adeliya Ayu Anggraeni"^^ . "1417041003 Adeliya Ayu Anggraeni"^^ . . . . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (File PDF)"^^ . . . "ABSTRAK.pdf"^^ . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (File PDF)"^^ . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (File PDF)"^^ . . . "SKRIPSI TANPA BAB PEMBAHASAN.pdf"^^ . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "lightbox.jpg"^^ . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "preview.jpg"^^ . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "medium.jpg"^^ . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "small.jpg"^^ . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "indexcodes.txt"^^ . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "lightbox.jpg"^^ . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "preview.jpg"^^ . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "medium.jpg"^^ . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "small.jpg"^^ . . . "ANALISIS TERMAL-HIDROLIK REAKTOR CEPAT\r\nBERPENDINGIN GAS (GAS COOLED FAST REACTOR)\r\nMENGGUNAKAN METODE RUNGE KUTTA (Other)"^^ . . . . . . "indexcodes.txt"^^ . . "HTML Summary of #57540 \n\nANALISIS TERMAL-HIDROLIK REAKTOR CEPAT \nBERPENDINGIN GAS (GAS COOLED FAST REACTOR) \nMENGGUNAKAN METODE RUNGE KUTTA\n\n" . "text/html" . . . "500 ilmu pengetahuan alam dan matematika" . . . "530 Fisika" . .