Modeling services

COMPUTATIONAL MODELING SIMULATIONS


The Spray Analysis and Research Services group at Spraying Systems Co. uses a combination of finite element analysis (FEA), computational fluid dynamics (CFD) and fluid structure interaction (FSI) to perform modeling simulations. Using our proprietary library of precision spray data, our research engineers simulate the behavior of fluids and sprays in complex geometries to solve your application issues and answer your application questions.

When Do We Use Modeling Simulations?

Solving spray problems, optimizing spray system performance and finding new ways to spray is our mission. In some cases, however, testing in the labs is not possible. Perhaps your customer's nozzle resides in a chemical processing tower and so the environment is impossible to replicate in the lab. Maybe the spray material is hazardous and thus cannot be tested in the lab safely. Or, testing may be too costly or unrealistic because you need multiple variables tested. In these cases, our solution is to virtually simulate these applications using our custom computational models.

How Are Our Modeling Simulations Different? 

Our models allow examination of liquid and gas flow in scrubbers, towers, ducts and dryers; internal flow characteristics in spray nozzles; gas and liquid mixing in two-fluid nozzles; and wall impact and shadowing. We can provide both standard and custom models.

Standard Models use theoretical numeric codes that require extensive user time commitments and computational resources. Preparing information, inputting data and computation can take weeks or months, depending on the complexity of the model.

Custom Models integrate data collected in our spray labs, including:

  • Known, not estimated, model inputs for the spray characteristics to ensure realistic representation of injectors
  • Known, not estimated, rheological inputs to ensure adequate capture of physics
  • User-defined function (UDF) to model drop-wise condensation with simultaneous evaporation and improve complex mass transfer of urea/ammonia in de-NOx applications
  • Accurate and extensive model validations to ensure best practices for simulations

The use of our data and specially equipped hardware allows us to complete projects quickly to help you optimize aspects of your spray operations, including:

  • Liquid and gas flow in scrubbers, towers, ducts and dryers
  • Spray droplet trajectories and distributions in towers and ducts
  • Internal flow characteristics of spray nozzles
  • Gas and liquid mixing in two-fluid nozzles
  • Wall impact and shadowing
  • Pollution reduction effectiveness
  • Blending in large vessels
Featured Resource

Optimize Spray Performance with CFD

Featured Resource

Optimize Spray Performance with Process Modeling

Find Resources

Learn more about our spray technology in our library of bulletins and case studies.

Let’s talk about using CFD modeling to optimize your spray performance.  Contact Us