Simulation of Runway Operations with Application of Dynamic Wake Separations to Study Runway Limitations
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Published:2020-10-01
Issue:12
Volume:2674
Page:199-211
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ISSN:0361-1981
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Container-title:Transportation Research Record: Journal of the Transportation Research Board
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language:en
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Short-container-title:Transportation Research Record
Author:
Roa Julio1,
Trani Antonio2,
Hu Junqi2,
Mirmohammadsadeghi Navid2
Affiliation:
1. Department of Civil and Geomatics Engineering, California State University Fresno, Fresno, CA
2. Department of Civil and Environmental Engineering, Virginia Tech, Blacksburg, VA
Abstract
This paper presents an evaluation of runway operations at Chicago O’Hare International Airport to estimate the impact of proposed wake vortex separation including Recategorization Phase II and III dynamic separations. The evaluation uses a Monte Carlo simulation model that considers arrival and departure operations. The simulation accounts for static and dynamic wake vortex separations, aircraft fleet mix, runway occupancy times, aircraft approach speeds, aircraft wake circulation capacity, environmental conditions, and operational error buffers. Airport data considered for this analysis are based on Airport Surface Detection Equipment Model X records from Chicago O’Hare International Airport from January to November 2016. Dynamic wake separations are tailored to each unique set of conditions by using environmental and aircraft performance parameters as input and allowing aircraft to be exposed to the same wake vortex strength as in Recategorization Phase II (RECAT II). The analysis shows that further reductions beyond RECAT II for aircraft pairs separated by 2 nautical miles or less is not operationally feasible. These wake separations already result in little to no wake dependency. When this is the case, the challenges in wake separation are to meet runway occupancy times and to make sure aircraft separations allow for human operational variations without resulting in aircraft turnarounds or double-aircraft-occupancy runway violations.
Funder
Virginia Tech Air Transportation Systems Laboratory
federal aviation administration
national aeronautics and space administration
Publisher
SAGE Publications
Subject
Mechanical Engineering,Civil and Structural Engineering
Cited by
2 articles.
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