This conference paper offers a detailed exploration of the fully coupled CFD simulation of a KJ66 micro gas turbine (MGT) engine—an innovative approach that enhances the accuracy and fidelity of 3D numerical analysis.
Key Takeaways:
- Integrated Approach: Unlike traditional component-by-component analysis, fully coupled simulations account for the interactions between the compressor, combustion chamber, turbine, and exhaust in one single, seamless simulation.
- Advanced Methodologies: Learn about RANS and nonlinear harmonic (NLH) methods, as well as the potential for coupling with large eddy simulations (LES) to capture complex flow dynamics.
- Case Study: See how these methodologies are applied to the KJ66 MGT engine, providing insights into turbine efficiency, fuel combustion, and inter-component interactions.
- Environmental Impact: Discover how these advanced techniques contribute to meeting stringent environmental goals in the aerospace sector.
Find more information here.
The post Fully Coupled CFD Simulations for Micro Gas Turbine Engines appeared first on Semiconductor Engineering.
