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Fuel Tank Inerting Modeling

Explore the advancements in fuel tank inerting modeling discussed at the International Aircraft Fire and Cabin Safety Conference, covering ARAC studies, FAA test programs, and computer simulations to enhance aviation safety. Discover the innovative techniques used in initial single bay and multi-bay tank modeling for effective inerting system performance. Gain insights into flight simulation models and ground-based inerting strategies to improve safety measures for high flammability fuel tanks. Learn about the positive impact of the Air Separation Module (ASM) and dual-flow onboard inerting concepts. Stay informed about the current status and conclusions from FAA's research to address potential risks associated with fuel tank flammability. Contact Ivor Thomas, Consultant to FAA, for more information.

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Fuel Tank Inerting Modeling

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  1. Fuel Tank Inerting Modeling Ivor Thomas Consultant to FAA 1 425 455 1807 fuelsguy@msn.com International Aircraft Fire and Cabin Safety Conference

  2. Background • Following TWA 800 the FAA undertook to examine fuel tank inerting to determine if a system could be made practical. • Two ARAC studies • FAA lab, ground and flight test programs • Computer simulations of system performance International Aircraft Fire and Cabin Safety Conference

  3. Computer simulations of system performance • Initial model to verify system performance in a single bay tank, using FAA Technical Center tests to confirm model. • Flight simulation model to look at performance of an inerting system throughout a flight • Air Separation Module (ASM) performance in flight (effects of available bleed air, system pressure drop etc.) • Multi-bay simulations to examine in-tank performance (potential for one or more high oxygen bays when the tank average is satisfactory) International Aircraft Fire and Cabin Safety Conference

  4. Initial Model • Model Features: • Simple one bay tank, • Single source of Nitrogen Enriched Air, at a fixed level of O2 • Single vent overboard • Sea level conditions only International Aircraft Fire and Cabin Safety Conference

  5. Initial Model • Model Results: • Mixing was very rapid, and could be assumed to be instantaneous • Starting from 21 % O2 model would predict test results accurately International Aircraft Fire and Cabin Safety Conference

  6. International Aircraft Fire and Cabin Safety Conference

  7. Flight Model • Model Features: • Simple one bay tank, • Single source of Nitrogen Enriched Air, at a variable level of O2 and flow rate • Changeable for different flight conditions • Could add results of ASM performance for given airplane/engine combination • Single vent overboard • Ground and Flight profiles can be simulated. • Fuel O2 Evolution and Fuel consumption included International Aircraft Fire and Cabin Safety Conference

  8. Flight Model • Model Results: • Very useful in determining effectiveness of inerting options • Ground based inerting • Various sizes of ASM and flow modes • Substantiated concept of variable flow technique, low flow in climb and cruise, high flow in descent International Aircraft Fire and Cabin Safety Conference

  9. Ground Based Inerting International Aircraft Fire and Cabin Safety Conference

  10. Ground Based Inerting International Aircraft Fire and Cabin Safety Conference

  11. Dual-Flow On Board Inerting International Aircraft Fire and Cabin Safety Conference

  12. Dual Flow On board Inerting International Aircraft Fire and Cabin Safety Conference

  13. Air Separation Module (ASM) • ASM performance strongly affected by available pressure and temperature • Airplane bleed flow affected by airplane flight conditions. • Model combined airplane/engine bleed data with ASM performance data to predict ASM performance in flight, which could then be used in the inerting flight model. International Aircraft Fire and Cabin Safety Conference

  14. Screen Dump of ASM Model International Aircraft Fire and Cabin Safety Conference

  15. Typical Single ASM Performance International Aircraft Fire and Cabin Safety Conference

  16. Multi-bay simulations • Background: • The performance of an inerting system can be estimated with the inerting flight model at a gross tank level. • In-tank effects needed to be examined to understand the potential for bays of a tank to be left at a high O2 state even though the tank average O2 was acceptable. International Aircraft Fire and Cabin Safety Conference

  17. Multi-bay simulations • Model Features: • Specific airplane /tank set-up • Bay sizes • Interconnect flow areas • vent geometry, • Multiple NEA insertion points • Ground and Flight Operation • Leakage International Aircraft Fire and Cabin Safety Conference

  18. Multi-bay simulations • Model Approach: • Establish bay to bay flow paths, vent flow paths and any leakage flows • Determine mass changes in each bay for each time increment, based on NEA flow and altitude change and temperature change • Solve for flows between bays and compute resultant O2 level in each bay • Iterate along flight path International Aircraft Fire and Cabin Safety Conference

  19. International Aircraft Fire and Cabin Safety Conference

  20. Current Status • FAA Multi-bay model developed for specific tanks • NOT available to public as the model uses specific airplane data • Specific model allows examination of different distribution techniques to minimize bay-to-bay O2 variation, particularly at Landing. International Aircraft Fire and Cabin Safety Conference

  21. Conclusions • FAA computer models, together with a large amount of testing to verify the assumptions in the models have allowed the FAA to understand the potential for On-board inerting systems and has allowed FAA to go forward towards an NPRM to address high flammability fuel tanks. International Aircraft Fire and Cabin Safety Conference

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