Pandu Prabowo Jati scite author profile

Pandu Prabowo Jati

2Publications

0Citation Statements Received

23Citation Statements Given

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Universitas Gadjah Mada

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Problem Solving of Isopropyl Alcohol – Water Azeotropic Characteristics Using Packed (Natural Zeolite) Bed Adsorber

Prasakti

Hartono

Jati³

et al. 2020

AJSTD

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The adsorption kinetics of water from an azeotropic mixture of isopropyl alcohol and water using chemically activated natural zeolites with and without a binder (starch) was investigated. In addition, an investigation of the compressive strength of zeolite pellets was conducted to ascertain the performance of the adsorbent for long-term operation. Three parameters were applied in the zeolite-making process: the particle size of zeolite (20, 30, 50, and 80 mesh), the sintering temperature (550, 750, and 1,000°C), the compaction pressure (2, 4, and 6 tonnes), and the starch-to-zeolite weight ratio (0, 1:3, 1:5, and 1:7). Initial screenings indicated that the strongest zeolite pellet was 80-mesh zeolite powder (without starch addition) that was compacted using 6 tonnes pressure and was sintered at 750°C. The adsorption tests using the strongest zeolite were conducted in a packed-bed column for three cycles, followed by compressive strength tests on the zeolite pellets after each cycle. According to the experimental data, zeolite pellets made without the addition of starch could adsorb up to 98.4% of the initial water in the mixture. From the four models proposed to describe the kinetics of adsorption of water from the mixture, the Freundlich model turned out to be the best model.

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Simulasi CFD Dinamika Kecepatan Gelombang Aliran Stratified Wavy Dua Fasa Minyak-Air pada Pipa Horizontal

Jati

Widyaparaga

2021

JMDT

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Dalam praktik di industri hulu minyak dan gas (migas), permasalahan aliran dua fasa merupakan bagian penting di semua siklus kegiatan dari desain hingga operasi. Fluida dari sumur produksi menghasilkan campuran minyak, air, gas, dan juga pasir yang sangat mungkin membentuk berbagai macam pola aliran. Sehingga dapat disimpulkan bahwa pemahaman akan pola aliran dan sifat fluida sangat penting untuk analisis, prediksi, dan mitigasi perubahan kondisi reservoir untuk menjaga stabilitas proses produksi. Untuk meningkatkan pemahaman pola aliran salah satunya pola stratified dilakukan penelitian mencari konfigurasi simulasi 2 dimensi campuran minyak dan air menggunakan Computational Fluid Dynamics (CFD). Penelitan yang dilakukan menghasilkan analisis sifat dinamika kecepatan gelombangmelalui perpaduan permodelan simulasi CFD serta image processing-cross correlation serta perbandingan hasil dengan eksperimen.Model yang dipilih untuk memprediksi antarmuka minyak-air di dalam pipa horizontal berdiameter 24 mm dan panjang 1200 mm adalah multiphase Eulerian Multi-Fluid VOF yang dipasangkan dengan model turbulensi shear stress transport (SST) k-ω yang dilengkapi dengan turbulence damping. Analisis dilakukan pada titik dari inlet dengan jarak 10 x diameter (10 D) dan 40 x diameter (40 D) dengan 4 variasi kecepatan. Hasil menunjukkan peningkatan rerata ketebalan film dan kecepatan gelombang seiring denganmeningkatnya kecepatan superfisial air dengan kecepatan superfisial minyak tetap. Dapat disimpulkan model multiphase Eulerian Multi-Fluid VOF yang dipasangkan dengan model turbulensi shear stress transport (SST) k-ω dan turbulence damping pada Ansys Fluent 19 mampu mensimulasikan aliran minyak dan air pada stratified regime denganbentuk gelombang serta dinamika kecepatan gelombang yang saling bersesuaian dengan hasil eksperimen.

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