Influence of jet discharge velocity profile on CFD simulation of pump-around jet mixing tank

Thanwa Jorakit; Natthanon Phaiboonsilpa; Apinan Namkanisorn; Phisan Ponpo; Eakarach Bumrungthaichaichan; Santi Wattananusorn

doi:10.1051/matecconf/201819203019

All issues

Volume 192 (2018)

MATEC Web Conf., 192 (2018) 03019

Abstract

Open Access

Issue		MATEC Web Conf. Volume 192, 2018 The 4^th International Conference on Engineering, Applied Sciences and Technology (ICEAST 2018) “Exploring Innovative Solutions for Smart Society”


Article Number		03019
Number of page(s)		4
Section		Track 3: Food, Chemical and Agricultural Engineering
DOI		https://doi.org/10.1051/matecconf/201819203019
Published online		14 August 2018

MATEC Web of Conferences 192, 03019 (2018)

Influence of jet discharge velocity profile on CFD simulation of pump-around jet mixing tank

Thanwa Jorakit, Natthanon Phaiboonsilpa, Apinan Namkanisorn, Phisan Ponpo, Eakarach Bumrungthaichaichan and Santi Wattananusorn^*

Department of Chemical Engineering, Faculty of Engineering, King Mongkut’s Institute of Technology Ladkrabang, Bangkok, Thailand

^* Corresponding author: cfdgroup_santi@hotmail.com

Abstract

The present paper shows the effect of jet discharge velocity profile (or jet nozzle configuration) on CFD simulation of an open 45° inclined side entry pump-around jet mixing tank. The CFD model was carefully developed by using appropriate grid arrangement, boundary conditions, and numerical methods. The two different jet discharge velocity profiles, including top hat and fully developed profiles, were simulated by using the inlet mass flow rate of about 0.22 kg·s^-1. The overall mixing times and normalized concentration profiles predicted by two different jet discharge velocity profiles were compared with the previous reliable experimental data. The results revealed that the different jet discharge velocity profiles resulted in different jet flow and mixing patterns inside the vessels.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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