Analisis Termal-hidrolik  Reaktor Cepat Berpendingin Gas (Gas Cooled Fast Reactor) Menggunakan Metode Runge Kutta

Adeliya Ayu Anggraini; Yanti Yulianti; Posman Manurung

doi:10.23960/jtaf.v6i2.189

Analisis Termal-hidrolik Reaktor Cepat Berpendingin Gas (Gas Cooled Fast Reactor) Menggunakan Metode Runge Kutta

Penulis

Adeliya Ayu Anggraini Universitas Lampung
Yanti Yulianti Universitas Lampung
Posman Manurung Universitas Lampung

DOI:

https://doi.org/10.23960/jtaf.v6i2.189

Kata Kunci:

Thermal-hydraulics, Runge Kutta Decomposition, GCFR

Abstrak

The Research of Gas Cooled Fast Reactor (GCFR) thermal-hydraulics analysis has been done. This reseacrh aim to solve fuel rod heat conduction equation by Runge Kutta method and to get thermal-hydraulics parameters such as coolant axial temperature distribution, pressure drops, convection heat transfer coefficient, and fuel rod radial temperature distribution. Heat transfer of the reactors was assumted steady state (time independent) then obtained coolant inlet tempertaure about 450 ^oC, outlet temperature about 474,752 ^oC and convection heat transfer coefficient about 2,5903 W/cm^{2 o}C. Pressure drop by friction was 0,16968 bar, pressure drop by form was 0,31292 bar, pressure drop by gravity was 0,20580 bar and total pressure drop was 0,68838 bar. While centerline fuel obtained the maximum temperature of fuel rod about 2720,33812 ^oC and the lowest fuel rod temperature at cladding surface about 488,8205 ^oC.

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PDF (English)

Diterbitkan

2018-07-01

Cara Mengutip

Anggraini, A. A., Yulianti, Y., & Manurung, P. (2018). Analisis Termal-hidrolik Reaktor Cepat Berpendingin Gas (Gas Cooled Fast Reactor) Menggunakan Metode Runge Kutta. Jurnal Teori Dan Aplikasi Fisika, 6(2), 141–146. https://doi.org/10.23960/jtaf.v6i2.189