CFD Flocculation Tank Simulation Research
Resources
Johannes Haarhoff and Jeremia J. van der Walt , J Water SRT - Aqua 50 (2001) 149-160 - - Towards optimal design parameters for around-the-end hydraulic flocculators.
Fall 2008 Research Proposals
- Validate which turbulence model to use. K-e realizable or K-w SST
- Calculate G_theta and compare with the theoretical data
- Analyze how energy dissipation rate is affected by Reynolds number
- Model entire flocculator instead of single baffle turning
- Explore different geometric space and achieve optimal geometry
Spring 2008 Research Goals
- Model and validate a simple 180 degree turn over two baffles:*
- Create fully second order accurate model
- Perform mesh sensitivity analysis (using coarse, medium and fine meshes)
- Model the baffles using alternate Turbulence models (K-e Standard, K-e Realizable, K-w)
- Analyze the effects of changing the baffle clearance height
- Understand and analyze the relationship between Strain Rate, Energy Dissipation and Kinematic Viscosity
- Create a flexible mesh that uses parametrization to easily change geometry dimensions
- Analyze the effect of the Reynolds Number on the results
- Analyze the sensitivity of the model to convergence residuals
- 2. Model flocculation tank and compare Simulation to Experimental results.*
Simulation
- Results
- Findings
Presentations
MidTerm Teach-in Presentation
Midterm evaluation
- Team Contribution
Reports
CFD Spring 2008 Report