Sustainable Airport Emissions Reduction through Optimized End-Around Taxiway Operations: A Simulation Approach

2026-99-0582

7/10/2026

Authors
Abstract
Content
To mitigate the risks of runway incursions during aircraft transitions between closely spaced parallel runways, major hub airports globally have implemented End-Around Taxiway (EAT) as an effective safety solution. Operational data from leading international airports confirms that EAT installations have successfully enhanced surface safety while maintaining operational efficiency. However, the EAT involves a longer taxiing route, resulting in higher fuel consumption and pollutant emissions. This study takes the example of a set of closely spaced parallel runways at a domestic airport to analyze the ground taxiing process of arrival and departure flights, proposing a dynamic allocation strategy for EAT operations that can achieve energy conservation and emission reduction during the taxiing process. Through simulation, its effective operational performance is studied.
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Citation
Wang, Z. and Ye, B., "Sustainable Airport Emissions Reduction through Optimized End-Around Taxiway Operations: A Simulation Approach," The 1st International Academic Conference on Intelligent Transportation and Low-Altitude Transport (ITLAT2025), Nantong, China, June 20, 2025, .
Additional Details
Publisher
Published
3 hours ago
Product Code
2026-99-0582
Content Type
Technical Paper
Language
English