Modeling and Simulation of Wake Safety Interval for Paired Approach Based on CFD
In order to relieve the stress caused by the surge of flight flow, Closely Spaced Parallel Runways (CSPRs) have been built in many hub airports, and a paired approach mode has been applied to CSPRs in some countries. This paper proposes a method for optimizing the wake separation between aircrafts which utilizes a paired approach, aiming at reducing longitudinal separation by using computational fluid dynamics technology. Firstly, the model of the wake vortex field of the paired lead aircraft is constructed. Secondly, the numerical simulation preparation for the characteristics of the wake vortex field is completed through the computational pretreatment of the model. Thirdly, a calculation model of wake safety interval based on paired approach operation is established. Finally, the proposed method shows its superiority comparing with other methods. This method realized visual analysis of wake vortex through optimization modeling based on computational fluid dynamics, contributing to increasing the capacity of the runway and improving the operation efficiency of an aerodrome.
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Availability:
- Find a library where document is available. Order URL: http://worldcat.org/oclc/5121625
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Supplemental Notes:
- © 2021 Xin He et al.
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Authors:
- He, Xin
- Ma, Yilong
- Yang, Hong
- Chen, Yaqing
- Publication Date: 2021-12
Language
- English
Media Info
- Media Type: Web
- Features: Figures; References; Tables;
- Pagination: Article ID 7891475
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Serial:
- Journal of Advanced Transportation
- Volume: 2021
- Publisher: John Wiley & Sons, Incorporated
- ISSN: 0197-6729
- EISSN: 2042-3195
- Serial URL: http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)2042-3195
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Publication flags:
Open Access (libre)
Subject/Index Terms
- TRT Terms: Aircraft; Aviation safety; Fluid dynamics; Parallel runways; Simulation
- Subject Areas: Aviation; Safety and Human Factors;
Filing Info
- Accession Number: 01834139
- Record Type: Publication
- Files: TRIS
- Created Date: Jan 25 2022 9:50AM