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- Title
Numerical Simulation of Workflow for Evaluating Flame Tube Thermocyclic Durability.
- Authors
Shulhin, Artem; Chemerys, Yevhenii; Loginov, Vasyl; Kharchenko, Volodymyr; Tulenko, Ihor
- Abstract
This paper explores strategies for extending the operational lifespan of flame tubes in turbofan engines – a critical component for maintaining engine efficiency and reliability, in line with global trends aimed at maximizing the use of laid reserves of aircraft engine performance. Utilizing a combination of advanced computational simulations and empirical research, the study meticulously analyzes the internal processes within the flame tube of the AL-31F turbofan engine. A detailed geometric model and finite element grid were created and adapted to simulate various operating conditions and assess their impact on the flame tube's performance. Special attention is given to understanding the thermal and mechanical stresses that influence its durability and serviceability. The results, compared against experimental data, validate the simulations and are crucial for identifying critical sections prone to damage, thereby facilitating enhanced decision-making regarding maintenance schedules and overhaul practices. This approach not only aims to minimize downtime and reduce maintenance costs but also extends the service intervals for critical engine components, thereby improving thermocyclic durability based on the damage mechanisms identified.
- Subjects
TURBOFAN engines; WORKFLOW management; THERMAL analysis; MAINTENANCE costs; DATA analysis
- Publication
Transactions on Aerospace Research, 2024, Vol 2024, Issue 2, p33
- ISSN
2545-2835
- Publication type
Article
- DOI
10.2478/tar-2024-0010