ICEM Meshing Error: "Too Many Nested Evaluations (Infinite Loop?)"

This error message in ICEM, encountered while linking block edges to a geometric curve, indicates a potential issue with the way you're defining the link. Here are some possible causes and solutions:

Causes:

• Circular Dependency: The linking process might be creating a circular dependency between the edges and the curve. This could happen if the definition of the link relies on information derived from the linked entities themselves.
• Incorrect Selection: You might be inadvertently selecting multiple edges or curves during the linking process, creating a loop.
• Software Bug (Less Likely): While less common, there's a slight chance this error could be caused by a bug in the specific version of ICEM you're using (Ansys 2019 R1).

Ansys Fluent: Validating Printed Circuit Heat Exchanger Model with NIST CO2 and Non-Conformal Mesh

 Validating Printed Circuit Heat Exchanger Model in Ansys Fluent

Here's a breakdown of your questions and some insights to help validate your research paper:

1. NIST Real Gas Model for CO2 in Fluent:

• The error you're encountering with the NIST real gas model for CO2 in Fluent could be due to a few reasons:
• Incorrect File Path: Double-check the path to your CO2 data file ("co2.fld"). Ensure it's located in a directory accessible by Fluent.
• Model Selection: Verify if you've selected "CO2" in the real gas model selection after enabling NIST real gas.
• Software Compatibility: Check the Fluent documentation for compatibility between your Fluent version and the specific NIST real gas model you're trying to use. Some models might require specific versions.

Ansys Fluent's Alkaline Electrolyzer Got You Stuck? Fixes Inside!

 1. Multiphase Configuration and Failure:

• Fluent's Alkaline Electrolysis module assumes a specific multiphase configuration with water as the primary phase and the gas mixture (H2 and O2) as the secondary. This configuration is likely chosen because:
  • The module focuses on water consumption and hydrogen/oxygen production.
  • Water acts as the continuous phase with gas bubbles forming within it.
• Changing the phases might confuse the module as it expects the dispersed phase (bubbles) to be secondary and interact with the continuous phase (water).

Structured Mesh in CFD Analysis: Definition, Advantages & Disadvantages

 In CFD (Computational Fluid Dynamics) analysis, a structured mesh is a specific type of mesh generation used to discretize the computational domain. Here's a breakdown of the key characteristics:

Structure:

• Elements: Structured meshes consist of elements that have a regular, repeating pattern. These elements are typically hexahedrons (3D) or quadrilaterals (2D).
• Implicit Connectivity: The connectivity between elements is implicit in a structured mesh. This means that the neighboring elements for any given element can be easily identified based on its position in the grid. Imagine a checkerboard pattern – each square "knows" its neighbors based on its location on the board.
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n-turboGrid: Exporting Mesh and Parametric Data for Further Use ?

 is there any option to export the mesh with parametric information

No, there currently isn't a direct option to export the mesh with parametric information in n-turboGrid. While n-turboGrid can export to the CGNS format, it doesn't include the parametric data used to generate the mesh.

Here are some alternative approaches you can consider: