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Safe take-off with runway analyses [electronic resource] / Boris Urbanek.
- Format:
- Book
- Author/Creator:
- Urbanek, Boris.
- Language:
- English
- Subjects (All):
- Airplanes--Takeoff.
- Airplanes.
- Runways (Aeronautics).
- Airplanes--Performance.
- Physical Description:
- 110 p. : ill. (some col.), plans.
- Edition:
- 1st ed.
- Place of Publication:
- Hamburg : Anchor Academic Pub., 2013.
- Language Note:
- English
- Summary:
- The economic situation of the recent years forces to operate aircraft at highest payloads possible and to load it at its maximum allowable take-off masses. Therefore, take-off performance optimization is nowadays as important as never before. This book offers a summary of factors affecting the maximum take-off mass and appropriate take-off speeds, which together represent necessary performance data for a safe take-off. These are usually presented in so called runway analyses. That is the reason why this book might be of interest for fight operations engineering personnel or pilots as it answers possible questions about the application and computing of the runway analyses.
- Contents:
- Safe take-off with runway analyses
- CONTENT
- LIST OF FIGURES
- LIST OF TABLES
- LIST OF ABBREVIATIONS
- INTRODUCTION
- 1 DEFINITION AND PURPOSE OF RUNWAY ANALYSIS
- 2 FACTORS AFFECTING MTOM AND V-SPEEDS
- 2.1 MSTOM
- 2.2 The aerodrome runway distances
- 2.2.1 Line-up distance
- 2.2.2 Take-off Distance
- 2.2.3 Take-off Run
- 2.2.4 Accelerate-stop Distance
- 2.3 Climb limitations
- 2.4 Obstacle clearance
- 2.4.1 Vertical plane
- 2.4.2 Horizontal plane
- 2.5 Meteorological elements
- 2.5.1 Wind
- 2.5.2 Pressure altitude
- 2.5.3 Temperature
- 2.6 Runway slope
- 2.7 Runway condition and contamination
- 2.7.1 Definitions
- 2.7.2 Effect on aircraft performance
- 2.8 Tire speed limit
- 2.9 Brake energy capacity
- 2.10 Aircraft configuration and systems setting
- 2.11 Aircraft status
- 2.12 Bearing strength
- 3 TAKE-OFF DATA OPTIMIZATION PRINCIPLE
- 3.1 Aircraft configuration and systems setting
- 3.2 v1/vr ratio
- 3.2.1 v1/vr range
- 3.2.2 v1/vr ratio influence
- 3.3 v2/vSR ratio
- 3.3.1 v2/vSR range
- 3.3.2 v2/vSR ratio influence
- 3.4 Take-off data determination
- 3.4.1 MTOM
- 3.4.2 v-speeds
- 4 EXISTING RUNWAY ANALYSES PRODUCTS
- 4.1 Aircraft manufacturer software
- 4.2 APG
- 4.3 Flygprestanda
- 4.4 ASAP
- 4.5 Honeywell
- 4.6 EFRAS
- 4.7 Conclusion of runway analyses review
- 5 RUNWAY ANALYSIS CONCEPTUAL MODEL FORTAKE-OFF
- 5.1 Input data
- 5.2 Mass to v1/vr ratio graph
- 5.3 Optimization process
- 5.4 v-speeds evaluation
- CONCLUSION
- BIBLIOGRAPHY
- APPENDIX.
- Notes:
- "Disseminate knowledge"--Cover.
- Includes bibliographical references.
- OCLC:
- 854977210
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