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Description
Cradle CFD 2023.2
What’s New in Cradle CFD 2023.2
Hexagon is proud to announce the availability of Cradle CFD 2023.2 as a Multiphysics Computational Fluid Dynamics solution to enhance your productivity for designing, researching, and manufacturing. We are pleased to offer new beneficial features and improvements in this version; you can read about the highlights below and find the complete list in the release guide.
Release Highlights in Cradle CFD 2023.2
Enhancement of Topology Optimization
Detailed settings about regularization (filter and projection), interpolation function (momentum and heat) and Krylov iterative method can be specified using GUI. As a result, a better design that provides a better performance suitable for a specific condition can be easily obtained.
Performance Up of Overset Mesh
The performance of overset mesh analysis, particularly with a broad background region compared to a component region, is significantly improved, providing multiple speed-ups in overall computation.
Enhancement of Simplified Rotor Model (VBM - Virtual Blade Model)
A huge enhancement enables detailed modeling of rotating blades.
A Virtual Blade Model (VBM) is a function to model the effect of rotor blades as a momentum source without actually modeling them in 3D. This function is now enhanced by accounting for Azimuth angle dependency of blades, Mach number dependencies, and a trim setting. As a result, the new VBM can provide a more accurate prediction of the momentum source by the blades in a practical manner.
Some of the new features of this release include:
What’s New in Cradle CFD 2023.2
Hexagon is proud to announce the availability of Cradle CFD 2023.2 as a Multiphysics Computational Fluid Dynamics solution to enhance your productivity for designing, researching, and manufacturing. We are pleased to offer new beneficial features and improvements in this version; you can read about the highlights below and find the complete list in the release guide.
Release Highlights in Cradle CFD 2023.2
Enhancements of Battery Modeling solution
This version introduced multiple enhancements to battery modeling solutions to provide faster and more robust computations, easier inputs, and higher accuracy for the P2D model and the Equivalent Circuit Model (a.k.a. RC model). One of the significant improvements is the current calculations for P2D model showing 200x speed up in one of the examples, reducing the total computation time from 1101 seconds to 57 seconds. The RC model now supports more input parameters and controls such as a resistance, R, time constant, T (=RC), a table input for model parameters considering temperature dependency, sub-stepping for time progress, and Joule heating calculation based on battery voltage transient characteristics. Anisotropic thermal conductivity can now be easily specified for both the P2D and the RC model.
Detailed settings about regularization (filter and projection), interpolation function (momentum and heat) and Krylov iterative method can be specified using GUI. As a result, a better design that provides a better performance suitable for a specific condition can be easily obtained.
Performance Up of Overset Mesh
The performance of overset mesh analysis, particularly with a broad background region compared to a component region, is significantly improved, providing multiple speed-ups in overall computation.
Enhancement of Simplified Rotor Model (VBM - Virtual Blade Model)
A huge enhancement enables detailed modeling of rotating blades.
A Virtual Blade Model (VBM) is a function to model the effect of rotor blades as a momentum source without actually modeling them in 3D. This function is now enhanced by accounting for Azimuth angle dependency of blades, Mach number dependencies, and a trim setting. As a result, the new VBM can provide a more accurate prediction of the momentum source by the blades in a practical manner.
- scFLOW Preprocessor
- Quick registrations of Part Interface Region
- Enhanced thin mesher
- Considering the Influence of Adjacent Parts in Solid-based faceter/surface mesher
- Rotational sweep mesh (Generated by specifying sweep mesh part)
- scFLOW Analysis Functions
- Enhancement of multiphase flow analysis feature
- Free surface analysis for 3+ phase flow by FIRM
- Expansion of phase change feature
- Enhancement of DEM feature
- Performance Up of Overset Mesh
- Battery Modeling
- Performance improvement of P2D model
- Enhancements on the Equivalent Circuit Model
- Support Anisotropic Thermal Conductivity
- Coupled Analysis Using FMI
- Enriched Domain Partitioning Algorithms
- Enhancement of Simplified Rotor Model
- scFLOW2Actran
- Surface Reaction for Hypersonic Solver
- Other Enhancements
- Enhancement of multiphase flow analysis feature
- scSTREAM Preprocessor
- Enhancement of Parts List
- scSTREAM Analysis Functions
- Enhancement of MARS Method
- Option to Solve Pressure Equations per Fluid Material
- Enhancement of Topology Optimization
- Enhancement of DEM feature
- Other Enhancements
- Common Applications
- scMonitor
- Parametric Study for scFLOW
- Batch Execution in Create 3D-ROM
- Postprocessor
- Enhancement of Reporting Function
- Function to Iconize Fluid Area
- Using Transient Analysis with CradleXR
- Moving Images for Streamline Animation
- Billboard Function
- Changing the Speed of Wave Propagation Animation
- HeatPathView
- Improvement of the Summary Display of Radiant Heat Amount in Heat Balance
- scMonitor