GridPro in Chemical Industry
Simplicity, easy visualization, computational efficiency, controlled refinement, and accuracy in capturing flow patterns.
Structured multiblock meshing serves as a powerful tool in the fields of chemical and processing industry, enabling the simulation and analysis of fluid flows, as well as heat and mass transfers, in various processes and equipment. Hexahedral meshes play a key role in unraveling complex flow behaviors, temperature distributions, mixing phenomena, and chemical reactions.
Heat Exchanger
In heat exchangers, structured meshes are considered the foundation for precise simulations to optimize flow patterns and tube layouts. To accurately simulate convection and conduction, a refined mesh near heat transfer surfaces is indispensable.
Structured meshing refines the mesh near heat transfer surfaces and adeptly captures boundary layers and flow patterns. This approach ensures an accurate representation of convection and conduction by maintaining uniformity in cell shapes and sizes, as well as upholding a consistent grid structure that seamlessly aligns with geometric surfaces.
Piping and Pipeline Design
Structured meshes aptly fulfils the mesh needs for simulating pipeline flows by employing well-organized, high-density cells adjacent to walls and ensuring smooth mesh transitions around bends and junctions.
The multi-blocking approach efficiently meshes all types of pipes, from simple ones to complex networks with multiple junctions. More importantly, structured grid’s characteristics to align the grid with the pipe's axis enhances the efficiency of simulations and facilitate effective capturing of the flow dynamics and pressure fluctuations.