Simulasi Dinamika Partikel dalam Rotary Drum Mixer Berbasis Komputasi Dinamika Fluida

Nugrara., Ichsan Dwi and Anando., M. Reinaldo Ongky Billy (2018) Simulasi Dinamika Partikel dalam Rotary Drum Mixer Berbasis Komputasi Dinamika Fluida. Undergraduate thesis, Institut Teknologi Sepuluh Nopember.

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Abstract

Simulasi tiga dimensi KDF bertujuan untuk mengkaji dinamika partikel dari pengaruh perbedaan diameter dan densitas terhadap distribusi partikel dalam rotary drum mixer dengan menggunakan simulasi numerik secara Komputasi Dinamika Fluida (KDF) menggunakan FLUENT. Simulasi berbasis KDF dengan model Eulerian memakai dimensi rotary drum mixer yang digunakan pada penelitian ini didasarkan pada penelitian Santos (2016) yang berbentuk silinder panjang 0.5 m dan diameter 0.22 m. Bahan yang digunakan yaitu glassbeads dan soybean yang berkonfigurasi perbedaan diameter 6.35 dan 1.13 mm, perbedaan densitas 2460 dan 1164 kg/m3, dan setiap variabel dilakukan simulasi menggunakan filling degree 50% dan 25% serta variasi kecepatan putar 0.59, 1.10, dan 1.77 rad/s. Hasil simulasi menunjukkan pada diameter yang berbeda bahwa partikel berdiameter lebih besar akan cenderung menempati bagian dasar dari rotary drum, sedangkan partikel berukuran lebih kecil cenderung menempati bagian tengah rotary drum. Pada densitas yang berbeda tidak memberikan pengaruh yang signifikan dalam distribusi partikel. Hasil simulasi menunjukkan hasil yang mendekati dengan hasil secara eksperimen.
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Three dimensional CFD simulations were performed to assess the particle dynamics of the impact of particle diameter and density on particle distribution in the rotary drum mixer based on CFD numerical simulation using FLUENT. CFD-based simulations with Eulerian model used rotary drum mixer dimension based on the previous experimental and simulation research of Santos (2016), a cylinder with 0.5 m length and inner diameter of 0.22m. The materials used are glassbeads and soybean with the effect of diameter difference of 6.35 mm and 1.13 mm, the effect of density difference of 2460 and 1164 kg/m3, and each of those effects are done using filling degree of 50% and 25% with various kind of rotational velocity of 0.59, 1.10, and 1.77 rad/s. The results of this simulations show that particles with larger diameter will sink towards the bottom of the rotary drum, whereas particles with smaller size on the rotary drum will tend to concentrate in the middle of the rotary drum. The effect of density does not have a significant impact on the particle distribution. The simulation predictions showed approximate similarly results when compared with the experimental observations.

Item Type: Thesis (Undergraduate)
Uncontrolled Keywords: Distribusi Partikel, KDF, Rotary Drum Mixer
Subjects: T Technology > TA Engineering (General). Civil engineering (General) > TA357 Computational fluid dynamics. Fluid Mechanics
Divisions: Faculty of Industrial Technology > Chemical Engineering > 24201-(S1) Undergraduate Thesis
Depositing User: M. Reinaldo Ongky Billy Anando
Date Deposited: 09 Aug 2021 22:43
Last Modified: 09 Aug 2021 22:43
URI: http://repository.its.ac.id/id/eprint/53844

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