Under construction: Projected finish date: 5/18/2008 Sunday

CFD Simulation Scientific Paper (By: Jorge Rodriguez, Yong Sheng Khoo)

Title: Better Understanding of Flocculation Process through CFD Simulation

Abstract

Flocculation is one of important process used by Aguaclara to treat water. The process involved particles collide in the solution and come together to form floc. This paper aims to present a methodology of using CFD to better understand the phenomena that take place in the flocculation tank. Better understanding of the flocculation process will enable the team to better design the water treatment system.

Introduction

Flocculation is direct process of particle collision. Past research has shown that fluid shear plays important role in causing the collision. Hence using CFD, the process in the flocculation tank is simulated. The ultimate result of this research is to find the strain rate in the flow that causes the shearing process which influencing the particle collision. The CFD tools that were used in the modeling process were Gambit and FLUENT. Gambit was used to create the geometry of the flocculation tank and FLUENT was used to plug in the data and initial conditions to obtain results.

Modeling Approach

The real life flocculation tank designed by Aguaclara involved a 180 deg turn over few dozens baffles. For validating result and modeling purpose, a simple 180 deg turn over two baffles was modeled. The first step was to set up the geometry of the of the simple flocculator. For future comparison with the experimental data, the design parameters for the pilot plant test flocculator was modified and used.

Figure 1: Geometry of

Figure 1. Mesh of the Flocculation Tank

Figure 1 shows the mesh that was generated in Gambit. Right hand side of the figure shows the mesh near the wall. There are more refine meshes near the wall in order to be able to solve the viscous sublayer. Also note that in general, there is no discontinuity or sudden jump in mesh size throughout the model to prevent error in simulation. The mesh is also more refine at the lower part of the flocculator. This is where the turning occurs. Since this will be the region where most fluiditic activity take place, a finer mesh is employed in this region.