CFD-Simulation of a Stirred Tank Reactor
€4,900.00*
Product: Complete description of fluid dynamical and mixing behavior of a stirred tank reactor.
Delivery time: 30 days after technical clarification
Extended Description:
CFD stands for Computational Fluid Dynamics and is a branch of fluid mechanics that uses numerical analysis to solve problems involving fluid flow. Using CFD-Simulations it is possible to analyze and optimize stirred tank reactors. All relevant process parameters can be analyzed such as: degree of mixing, suspension of solids, identification of short-circuiting or dead zones, etc.
Stirred tanks are one of the most common reactors in the biological stage of water and wastewater treatment. An efficient and smooth process operation is essential for functioning of the whole plant.
Numerical analysis:
Complete description of steady-state fluid dynamical behavior in the reactor Visualization of flowVelocity and vector field at different plane sections 3D-Streamlines over the entire reactor Quantitative analysis of velocity distribution, solid concentration distribution, etc. (diagrams) TSS profile
Hydraulic mixing analysisResidence Time Distribution analysis (RTD) Mean age (internal residence time)
Deliverables:
Report of CFD analysis in PFD, including:Theory Description of tank geometry CFD analysis for two (2) simulations (two different operating points) Evaluation of results and recommendations Conclusions
Required data:
3D-CAD-Geometry of Reactor (maximum volume: 10.000 m3) Mixer devices: Number of mixers (Maximum number of mixers: 6) Diameter Location Pumping rate or thrust (ISO- 21630) Rotating rate (rpm)Description of inlets and outlets (main inlet, recirculation, returned sludge, etc) MLSS (Mixed Liquor Suspended Solids) or TSS (Total Suspended Solids) SVI (Sludge Volume Index)
Example of a CFD-Simulation - download here!
Are you interested and want to know more about the possibilities of CFD?
Then you can contact Mr. Efraim Riess-Gonzalez:
Tel: +49 9131 69098-64
Email: ERiess-Gonzalez(at)invent-uv.de