Computational Fluid Dynamic Simulation of Clearance Effect and Velocity in Liquid Mixing System
Bayu Triwibowo, Astrilia Damayanti, Anwaruddin Hisyam, Dessy Ratna Puspita, Dwiana Asmara Putri
2018
Abstract
Stirred tank is one of the most important process-support tools in the industrial world, either in the food, pharmaceutical, oil or gas industries. The stirring process in a stirred tank involves miscible liquid stirring, gas dispersion or immiscible liquid into the liquid phase, suspension of solid particles, heat and mass transfer and chemical reactions. This research aims to study the characteristic of the stirring process by simulating the stir-equipped tank with water fluid that will be validated by experimentation that has been done. The stirring process is done by simulating computational fluid dynamics (CFD) using multiple reference frame (MRF) simulation method, modeling large eddy simulation (LES) flow turbulence and stirring speed variable. The stages in the simulation of the stirring process include pre-process, solving and post process. The simulation results have been validated by experiments conducted by Ivan Fort et al. The erosion at the bottom of the tank is predicted by observing the axial pressure distribution shown by the observation point..
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in Harvard Style
Triwibowo B., Damayanti A., Hisyam A., Puspita D. and Putri D. (2018). Computational Fluid Dynamic Simulation of Clearance Effect and Velocity in Liquid Mixing System.In Proceedings of the 7th Engineering International Conference on Education, Concept and Application on Green Technology - Volume 1: EIC, ISBN 978-989-758-411-4, pages 442-446. DOI: 10.5220/0009012604420446
in Bibtex Style
@conference{eic18,
author={Bayu Triwibowo and Astrilia Damayanti and Anwaruddin Hisyam and Dessy Ratna Puspita and Dwiana Asmara Putri},
title={Computational Fluid Dynamic Simulation of Clearance Effect and Velocity in Liquid Mixing System},
booktitle={Proceedings of the 7th Engineering International Conference on Education, Concept and Application on Green Technology - Volume 1: EIC,},
year={2018},
pages={442-446},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0009012604420446},
isbn={978-989-758-411-4},
}
in EndNote Style
TY - CONF
JO - Proceedings of the 7th Engineering International Conference on Education, Concept and Application on Green Technology - Volume 1: EIC,
TI - Computational Fluid Dynamic Simulation of Clearance Effect and Velocity in Liquid Mixing System
SN - 978-989-758-411-4
AU - Triwibowo B.
AU - Damayanti A.
AU - Hisyam A.
AU - Puspita D.
AU - Putri D.
PY - 2018
SP - 442
EP - 446
DO - 10.5220/0009012604420446