Dwsim Pro !link!

Supports creating custom unit operations using Visual Basic and C#. DWSIM Pro vs. Commercial Competitors

changes that narrative. As the commercial sibling to the popular open-source DWSIM, the Pro version provides a powerful, cloud-based solution that rivals giants like Aspen Plus, but at a fraction of the cost. What is DWSIM Pro? Created by Daniel Medeiros

DWSIM Pro is the commercial, enterprise-ready extension of the standard open-source DWSIM process simulator. While the standard version remains free and highly capable, the Pro version is specifically engineered for professional engineers, consultancies, and industrial plants requiring enhanced calculation speeds, proprietary thermodynamics, cloud collaboration, and dedicated technical support.

DWSIM Pro, the commercial version of the open-source DWSIM simulator, includes a dedicated Solids Manager dwsim pro

Rigorous distillation columns, absorption columns, flash separators, and component splitters.

Whether you primarily need modeling, dynamic modeling, or API integration .

Shell-and-tube heat exchangers, coolers, heaters, and air coolers. Supports creating custom unit operations using Visual Basic

If your work involves detailed exchanger design, high-pressure reliefs, or large-scale kinetic models with hundreds of reactions, you may still need a secondary tool.

Simulating carbon capture systems, hydrogen production pathways, and bioethanol distillation.

Thermodynamics are the foundation of any accurate process simulation. DWSIM Pro features a massive database of chemical compounds and advanced property packages, including: As the commercial sibling to the popular open-source

A research group studying carbon capture for cement plants used DWSIM Pro’s dynamic simulation to model solvent degradation over time. They published findings in Industrial & Engineering Chemistry Research – with full reproducibility using exported Python scripts.

At its core, DWSIM Pro is a chemical process simulator capable of calculating the material and energy balances of process plants in both steady-state and dynamic modes. It is used for a wide range of tasks including process design, engineering studies, debottlenecking, and creating operator training simulators and digital twins.