Perhitungan Kapasitas Kalor Pb-Bi Cair dengan Beragam Komposisi sebagai Pendingin Reaktor Menggunakan Simulasi Dinamika Molekul
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Fakultas Matematika dan Ilmu Pengetahuan Alam
Abstract
The development of next-generation nuclear reactors requires efficient and
thermally stable coolant materials. Liquid lead-bismuth (Pb-Bi) alloys are promising
candidates due to their favorable thermophysical properties. This study aims to
calculate the heat capacity of liquid Pb-Bi alloys at various compositions using
molecular dynamics simulations. The simulations were carried out with LAMMPS to
generate atomic and energy data, and OVITO for structural analysis. The system was
modeled using the Lennard-Jones potential and equilibrated at 873 K. Heat capacity
was determined based on energy fluctuations under the NVT ensemble. The results
show that compositions with 5% to 90% Pb produced stable and realistic heat
capacities, ranging from 0.0001 to 0.0010 eV/K.atom. In contrast, Pb-rich
compositions (95% and 100%) showed excessive energy fluctuations and unrealistic
heat capacities, indicating thermal instability. These findings suggest that bismuth
plays a key role in stabilizing the liquid structure. The eutectic composition (Pb 44.5%
– Bi 55.5%) demonstrated optimal thermal performance and is recommended as a
reliable reactor coolant materia
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