Title
Design and test of a swirl-stabilized methane combustor with axial air injection
Author
van den Bergh, Aydin (TU Delft Aerospace Engineering)
Contributor
Gangoli Rao, A. (mentor) 
Degree granting institution
Delft University of Technology
Programme
Aerospace Engineering
Project
Advanced Propulsion and Power Unit (APPU)
Date
2022-06-24
Abstract
To reduce emissions from civil aviation, research is being conducted in lean premixed hydrogen combustors as part of the APPU project at the TU Delft. Next to mitigating CO2 emissions completely, these technologies have the potential to also reduce NOx emissions greatly, allowing for the future of civil aviation to become sustainable. However, the swirling flow of such combustors and the high reactivity of hydrogen lead to increased flashback propensity which can damage the combustor and the engine all together. To counteract this, a concept called Axial Air Injection (AAI) is under investigation. In this technique, an air jet is injected in the mixing tube on its centreline, in an attempt to push the flame more downstream to prevent flame flashback from occurring. The effect of this concept on flashback propensity has been investigated on an axial swirl-stabilized methane combustor, though a parametric variation of swirl intensity and AAI level. The flowfield inside the combustor of each operating point has been visualized by conducting both non-reacting and reacting PIV, which has given insight in their intrinsic differences on flashback propensity for such a combustion system. The results have shown that the non-reacting flowfields prove to be a good indicator of flashback propensity in reacting flowfields for low and high levels of AAI. For in between AAI values, the interaction of heat release, swirling flow and AAI creates a larger deviation which has been shown to be dependent on the presence of circumferential vorticity in non-reacting conditions. It is envisaged that these experimental results will contribute to the body of knowledge in the hydrogen combustor development as part of the APPU project.
Subject
Swirling flow
Lean premixed hydrogen combustion
PIV
Vortex breakdown
Axial air injection
APPU
Flashback
Axial swirl generator
To reference this document use:
http://resolver.tudelft.nl/uuid:5262b98f-bf7d-481d-b2ff-e2816d3c9e12
Embargo date
2025-06-30
Coordinates
51.988610, 4.376159
Part of collection
Student theses
Document type
master thesis
Rights
© 2022 Aydin van den Bergh