AGEAIR II: Investigation of gaseous and particulate emissions of in-service AIRcraft and helicopter turbine engines, as well as the effects of performance deterioration of AGEing aircraft engines
Description
All combustion engines emit a wide range of toxic emissions. On one hand, the gaseous fraction contains mostly nitrous gases (NOx), carbon monoxide, hydrocarbons and sulfur dioxide. Thanks to ICAO regulations, NOx emissions have substantially decreased in recent years, especially by optimizing the combustion process. On the other hand, characteristics of the non-volatile particulate matter fraction (nvPM) changed significantly, as the mean aerodynamic diameter decreased from large fractions (1-10 µm) to an ultrafine fraction (< 100 nm). The currently established measurement principles, regulated in ICAO Annex 16, Volume 2, are therefore becoming more and more useless when measuring nvPM. To this end, the Swiss Mobile Aircraft Engine Emissions Measurement System SMARTEMIS, a new, robust, industrial-grade nvPM and gaseous emission measurement system has been developed jointly between Empa and FOCA. SMARTEMIS can quantify nvPM emissions to a hitherto hardly reached degree. This made it possible to define a new nvPM certification standard, which will come into action for all turbofan engines with thrust > 26.7 kN from 2020 on. Yet, smaller turbofan, all turboprop and all turboshaft engines still lack any stricter regulation. Moreover, the exhaust characteristics of such engines is still largely unknown. As well, the detrimental effects of engine deterioration onto exhaust composition has not yet been quantified.AGEAIR I and II wants to address these two problems: During the project AGEAIR I (06/2016-03/2020), SMARTEMIS will be used to gather first data quantifying the engine deterioration effects of large turbofan engines (> 26.7 kN thrust) on pollutant emissions. This measured data will be used to develop a first version of an engine deterioration model predicting changes in the engine exhaust. During AGEAIR II (01/2020-12/2022), we will validate the model with further measurements and start assessing the exhaust gas composition of turboprop and turboshaft engines of small to medium-sized helicopter and turboprop planes. The findings will i) complement engine emission datasets to generate a comprehensive aviation emission inventory, ii) generate a base of discussion for future regulatory actions for small turbine engine emissions and iii) help understanding the combustion processes of small turbine engines
Key Data
Projectlead
Dr. Lukas Durdina
Co-Projectlead
Dr. Julien Anet
Project team
Dr. Jacinta Edebeli, Curdin Spirig
Project status
completed, 06/2020 - 12/2023
Funding partner
Bundesamt für Zivilluftfahrt BAZL
Project budget
2'000'000 CHF
Further documents and links
Publications
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Certification versus research measurements : investigating the variability of particle emissions of large jet engines from a long running series of emission tests
2022 Durdina, Lukas; Edebeli, Jacinta; Spirig, Curdin; Roth, Manuel; Anet, Julien; Brem, Benjamin; Elser, Miriam; Schönenberger, David
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Responses of reconstituted human bronchial epithelia from normal and health-compromised donors to non-volatile particulate matter emissions from an aircraft turbofan engine
2022 Delaval, Mathilde N.; Jonsdottir, Hulda R.; Leni, Zaira; Keller, Alejandro; Brem, Benjamin T.; Siegerist, Frithjof; Schönenberger, David; Durdina, Lukas; Elser, Miriam; Salathe, Matthias; Baumlin, Nathalie; Lobo, Prem; Burtscher, Heinz; Liati, Anthi; Geiser, Marianne
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Effective density of aircraft engine PM revisited : effects of engine thrust, engine type, fuel, and sample conditioning
2021 Durdina, Lukas; Brem, Benjamin; Elser, Miriam; Schönenberger, David; Anet, Julien
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Reduction of nonvolatile particulate matter emissions of a commercial turbofan engine at the ground level from the use of a sustainable aviation fuel blend
2021 Durdina, Lukas; Brem, Benjamin Tobias; Elser, Miriam; Schönenberger, David; Siegerist, Frithjof; Anet, Julien