CFD DIGITAL SIMULATION

Industrial mixing

CFD Digital simulation for industrial mixing

CFD Digital simulation for industrial mixing

The power of innovation through simulation and anticipation

Computational Fluid Dynamics (CFD) allows you to virtually model complex phenomena, such as the mixing of fluids in a tank. It provides detailed information on the velocity fields, pressures, temperatures and other properties of fluids at different points in space and over time.

This approach is not only key to the design and optimisation of systems involving fluids, it is also a source of sound engineering practice.

It provides you with the advantage of virtually validating the system prior to manufacture, ensuring full compliance with specifications and avoiding costly on-site testing.

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ADVANTAGES OF HASLER GROUP CFD DIGITAL SIMULATION

/ OPTIMISE product or process design : CFD analysis allows fluid behaviour to be modelled and visualised, thus helping to optimise the design of the mixer according to the specific needs of the process.

/ IMPROVE efficiency : by studying fluid movements and interactions, CFD analysis can be used to adjust the mixer to maximise mixing efficiency, allowing for faster, more homogeneous processes. e.g.: optimising installed power. e.g.: Virtual imaging of velocity fields in the tank, as well as shear rates.

/ REDUCE costs : by identifying inefficiencies or potential problems in the design at the modelling stage, adjustments can be made before manufacture, thereby reducing the cost of post-production modifications.

/ SAVE energy : an optimised design based on CFD analysis can lead to more efficient use of energy, thereby reducing consumption and associated costs.

/ REDUCE risks : anticipate and solve potential fluid issues, reducing operational risk and unplanned downtime. In particular, CFD allows you to accurately model the flow of fluids with complex rheology (non-Newtonian fluids).

/ INCREASE your responsiveness to process changes : a CFD-based design offers greater flexibility to adapt to changing process needs, without the need for a major design overhaul.

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PERSONNEL CONCERNED BY THE CFD

/ Maintenance or production managers and technicians
/ Process engineers and R&D specialists (operators, EPC contractors)
/ Project managers (operators, EPC contractors)

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KEY STEPS OF THE CFD DIGITAL SIMULATION

STEP 1

Definition of objectives
Data collection

STEP 2

Pre-processing in the numerical solver: meshing, resolution model, declaration of boundary conditions, calculation and numerical resolution

STEP 3

Post-processing: demonstration of physical phenomena to assess the suitability of the solution

STEP 4

Documentation
Presentation of results

CFD DIGITAL SIMULATION RESULTS

ANTICIPATE :

/ Flow analysis
/ Optimisation of mixer geometry
/ Analysis of flow distribution and velocity fields
/ Assessment of the power dispersed in the environment

/ Identification of dead zones or zones with insufficient mixing power
/ Temperature management
/ Analysis of particle distribution
/ Reduction of operational risks

 

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HASLER CARE SERVICES

Optimise your industrial processes and equipment by discovering HASLER Group services

Mechanical audit

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PROCESS AUDIT

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LABORATORY TRIALS

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INSTALLATION & COMMISSIONING

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PREVENTIVE & PREDICTIVE MAINTENANCE

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MAINTENANCE CONTRACT

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TROUBLESHOOTING & REPAIR

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REMOTE SUPPORT

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DOSING TRAINING

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FILTRATION TRAINING

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MIXING TRAINING

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KNEADING TRAINING

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