Services
Industrial Processes and Fluid Mixing
At Slidian , we evaluate the internal behavior of industrial equipment and reactors through advanced simulations, ensuring proper operation and defining the most suitable design configuration to maximize process efficiency.
Our studies provide detailed analysis of transport and mixing phenomena occurring within the equipment, optimizing both operational performance and the geometry and arrangement of internal components.
Inlet and outlet flow rates
Operating temperatures
Fluid physical properties
Fluid state (liquid, gas, multiphase mixture, etc.)
When dispersed particles or suspended solid phases are present, their behavior is also incorporated into the model, allowing evaluation of transport, dispersion, and potential deposition phenomena.
Injector and Diffuser Design Optimization
One of the key aspects of many industrial systems is the proper configuration of injection and diffusion systems.
By accurately reproducing the arrangement of injectors and diffusers within the equipment, we simulate fluid entry and exit under real operating conditions, including operating sequences when required by the process.
These simulations make it possible to:
Determine the optimal injection configuration
Design the most appropriate geometry and orientation
Evaluate different operating conditions
Improve mixing and internal distribution
Increase overall process efficiency
The result is an optimized design that maximizes performance while reducing losses and inefficient regions.
This type of information is extremely difficult to obtain through analytical methods or direct measurements, making CFD simulation a fundamental tool for the design and validation of industrial equipment.
España
Baixada Gándara 16,
36331 Vigo
Spain
+34 886113547
USA
2500 CityWest Blvd
Houston TX 77042
USA
+1 7136145403
España
Baixada Gándara 16,
36331 Vigo
Spain
+34 886113547
hello@slidian.com
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