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A Study of Hybrid Airfoil Design Method Read chapter Read first chapter

2019 | OriginalPaper | Chapter

Calculation and Analysis of Aircraft Pollution Emissions in the Take-off Phase

Authors : Zhiqiang Wei, Xiaolan Han, Chung Joon, Sotto Aaron

Published in: The Proceedings of the 2018 Asia-Pacific International Symposium on Aerospace Technology (APISAT 2018)

Publisher: Springer Singapore

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Abstract

Flight safety, economics and environmental protection are important factors to consider when designing an aircraft. The severity of the noise and emission output of the aircraft are heavily influenced by the manner in which the aircraft takes off. Aircraft manufacturers have developed and distributed their own software to calculate take-off parameters, departure paths, and noise data. However, this software does not have the capability to accurately estimate pollution output. Therefore, it is necessary to develop accurate mathematical models and software to calculate emission based on aircraft departure flight paths and take-off parameters. This paper presents aircraft pollution emission models based on the International Civil Aviation Organization (ICAO) database and Boeing Methods 2 (BM2) data. Methods for converting (Boeing Climb-Out Program) BCOP’s flight data to meet the calculation of emission are constructed in this paper. After then, the Aircraft Pollution Emission Analysis Tool (APEAT) was developed to calculate pollution emissions for various take-off conditions and parameters. This paper also proposes equivalent CO2 and weighted equivalent CO2 metrics to analyze the overall effect of take-off parameters on airport regional air quantity. Finally, some suggestions were made that can be used to reduce the aircraft pollution emissions in take-off phase.

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Literature
1.
Koffi B, Szopa S, Cozic A (2010) Present and future impact of aircraft, road traffic and shipping emissions on global tropospheric ozone. Atmos Chem Phys (6):11681–11705CrossRef
2.
Malina R, McConnachie D, Winchester N (2012) The impact of the European Union emissions trading scheme on US aviation. J Air Transp Manag (19):36–41CrossRef
3.
Lim D, Kirby M, Nam T, Burdette G (2014) Assessment of carbon dioxide emission metric systems for an aircraft certification standard. J Aircr 51(2):559–570CrossRef
4.
ICAO (2010) Engine Exhaust Emissions Data Bank, Doc 9646-AN/943, Issue 16A
5.
Xia Q, Zuo H, Yang J (2008) Evaluation of LTO cycle emissions from aircraft in China civil aviation airports. Acted Sci Circumstantiate 28(7):1469–1474
6.
7.
Martin R (1995) Boeing method 2 fuel flow methodology description. Presented to the CAEP working group III certification subgroup
8.
Pham V, Tang J, Alam S, Lokan C (2010) Aviation emission inventory development and analysis. Environ Model Softw 25(12):1738–1753CrossRef
9.
Owen B, Lee D, Lim L (2010) Flying into the future: aviation emissions scenarios to 2050. Environ Sci Technol 44(10):2255–2260CrossRef
10.
Cook A, Tanner G, Williams V, Meise G (2009) Dynamic cost indexing managing airline delay costs. J Air Transp Manag (15):26–35CrossRef
11.
Schumann U, Graf K, Mannstein H (2011) Potential to reduce the climate impact of aviation by flight level changes. In: 3rd AIAA atmosphere space environments conference, Honolulu, Hawaii, AIAA Paper, 2011, pp. 2011–3376
12.
Wei ZQ, Wang C (2010) Estimating method of pollution emissions for scheduled flight in different phases. J Traffic Transp Eng 10(6):48–52
13.
Wei ZQ, Diao HZ, Han B (2014) Research on calculating of aircraft pollution emissions in cruise phase. Sci Technol Eng 14(19):0122–0127
14.
15.
Khardi S (2011) Development of innovative optimized flight paths of aircraft takeoffs reducing noise and fuel consumption. Acta Acust United Acust 97(1):148–154CrossRef
16.
Ting D, Nelson M, Haselfeld G (2010) Takeoff performance optimization balancing thrust reduction and stopping margin. In: The 2010 Boeing performance and flight operations engineering conference, Seattle, US, September 2010
17.
Fan A (2010) An assessment of environmental impacts of a next-gen implementation scenario and its implications on policy-making, MS thesis, Massachusetts Institute of Technology
18.
Ratliff G, Sequeira C, Waitz I, Ohsfeldt M, Thrasher T, Graham, M (2009) Aircraft Impacts on Local and Regional Air Quality in the United States, Final report of PARTNER Project15, PARTNER-COE-2009-002
Metadata
Title
Calculation and Analysis of Aircraft Pollution Emissions in the Take-off Phase
Authors
Zhiqiang Wei
Xiaolan Han
Chung Joon
Sotto Aaron
Copyright Year
2019
Publisher
Springer Singapore
Book
The Proceedings of the 2018 Asia-Pacific International Symposium on Aerospace Technology (APISAT 2018)

Print ISBN: 978-981-13-3304-0

Electronic ISBN: 978-981-13-3305-7

Copyright Year: 2019

DOI
https://doi.org/10.1007/978-981-13-3305-7_161

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