Hydrogen-air lean premixed turbulent highly swirled flames stabilisation: experimental demonstration and mechanistic-kinematic description – CORRIGENDUM

P. Palies; C.P. Premchand

doi:10.1017/aer.2025.34

Hydrogen-air lean premixed turbulent highly swirled flames stabilisation: experimental demonstration and mechanistic-kinematic description – CORRIGENDUM

Published online by Cambridge University Press: 10 April 2025

P. Palies

and

C.P. Premchand

Article contents

Abstract
References

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Abstract

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Information

Type: Corrigendum
Information: The Aeronautical Journal , Volume 129 , Issue 1336 , June 2025 , pp. 1445 - 1447

DOI: https://doi.org/10.1017/aer.2025.34 [Opens in a new window]
Creative Commons: This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright: © The Author(s), 2025. Published by Cambridge University Press on behalf of Royal Aeronautical Society

This article was published with three figures out of order and one figure incorrectly cited. In addition, two dashes were mistakenly inserted into the text, and two equations contained errors.

Figure 6 should have appeared as follows:

Figure 6.

Time-averaged flame images at constant equivalence ratio 0.3 for several increasing mixture velocities from 1.7 m s^–1 (a) to 6.79 m s^–1 (f).

Figure 7 should have appeared as follows:

Figure 7.

Timeseries of integrated chemiluminescence signals at constant 0.3 equivalence ratio for several increasing mixture velocities from 1.7 m s^–1 to 6.79 m s^–1.

Figure 8 should have appeared as follows:

Figure 8.

Experimental flame imaging for equivalence ratio 0.3, 0.4 and 0.5 from left to right at constant air bulk velocity 6 m s⁻¹. Measured time-averaged chemiluminescence emission fields are shown on panels (a, b, c) with constant variance isolines (orange dashed line) overlaid. Chemiluminescence emission variance fields are shown in panels (d1,e1,f1) with superimposed time-averaged contours (grey dashed line). Inverse Abel transform of the time-averaged fields are shown in panels (d2,e2,f2). Data are scaled by maxima taken at the highest equivalence ratio.

Both references to Figure 6 on page 13 should have referred to Figure 8. The expression ‘Fig. 6 (top and central rows) along with instantaneous shadowgraphs (bottom row)’ should have read ‘Fig. 8 (top row) along with post-processed fields (bottom row)’.

Dashes were mistakenly inserted into the abstract (‘(2) -describe the underlying flame stabilisation principle’) and nomenclature (‘-geometric swirl number at the bluff-body’).

Finally, the equations (A2) and (A3) were incorrectly published with negative signs on the left-hand side of the equations. These negative signs should not have been included.

The publisher and authors apologise for these errors.

References

Palies, P, Premchand, CP. Hydrogen-air lean premixed turbulent highly swirled flames stabilisation: experimental demonstration and mechanistic-kinematic description. The Aeronautical Journal. Published online 2025:1–24. doi: 10.1017/aer.2025.6CrossRef Google Scholar

Figure 6. Time-averaged flame images at constant equivalence ratio 0.3 for several increasing mixture velocities from 1.7 m s–1 (a) to 6.79 m s–1 (f).

Figure 7. Timeseries of integrated chemiluminescence signals at constant 0.3 equivalence ratio for several increasing mixture velocities from 1.7 m s–1 to 6.79 m s–1.

Figure 8. Experimental flame imaging for equivalence ratio 0.3, 0.4 and 0.5 from left to right at constant air bulk velocity 6 m s−1. Measured time-averaged chemiluminescence emission fields are shown on panels (a, b, c) with constant variance isolines (orange dashed line) overlaid. Chemiluminescence emission variance fields are shown in panels (d1,e1,f1) with superimposed time-averaged contours (grey dashed line). Inverse Abel transform of the time-averaged fields are shown in panels (d2,e2,f2). Data are scaled by maxima taken at the highest equivalence ratio.