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Ed Brambley Reader (Associate Professor) (joint with WMG) UKRI Future Leaders' Fellow Office: B2.36 Phone: +44 (0)24 765 74832 Email: E dot J dot Brambley at warwick dot ac dot uk Website:

Previous Teaching Responsibilities:

• 2022-2023:
• 2018-2021:

Research Interests

I am interested in all applications of mathematical modelling with industrial relevance. I have particular interests in aeroacoustics, fluid-solid interaction, computational aeroacoustics (CAA), linear stability analysis, perturbation energy, solid mechanics and plasticity.

Current research includes mathematical modeling of various metal forming processes, the effectiveness of acoustic linings in aircraft engine intakes, and optimizing finite difference stencils for wave propagation.

Opportunities

Undergraduate Internships/Summer Projects: I have several research projects suitable for a mathematics or engineering undergraduate to attempt over a summer vacation, or as a 3rd or 4th year project. The projects are all active research, and a good attempt could well lead to a journal publication. For further details, please see or contact me.

PhDs: I am currently looking to take on one or two PhD students. Applicants should have a mathematics background, or an engineering background with a strong mathematical component. Familiarity with asymptotics is essential. While the emphasis is on mathematics, some familiarity with computing (either C, Fortran or Matlab) and numerical analysis would be advantageous. For further details, please contact me. Note that PhD placements are subject to acquiring suitable funding.

Selected publications

For an up-to-date list of all publications, see my .

• King, Brambley, , , Lafourcade & Shah (2022) J. Fluid Mech. 950 A8.
• , Bonomo, & Brambley (2020) J. Sound Vib. 489 115676.
• & Brambley (2020) AIAA J. 58(2) pp. 673–686.
• McTavish & Brambley (2019) J. Fluid Mech. 875 pp. 411–447.
• , , , & Brambley (2018) J. Fluid Mech. 849 pp. 645–675.
• & Brambley (2017) . J. Acoust. Soc. Am. 141(4), 2408–2417.
• & Brambley (2017) . AIAA J.
• & Brambley (2017) J. Fluid Mech. 810 489–534.
• Brambley (2016) J. Comput. Phys. 324 258–274.
• Brambley & (2016) J. Comput. Phys. 321 755–775.
• , & Brambley (2016) Int. J. Mech. Sci. 113 36–48.
• , & Brambley (2016) Int. J. Mech. Sci. 106 184–193.
• Brambley, & (2012) J. Fluid Mech. 710 545–568.
• Brambley, & (2012) J. Fluid Mech. 690 399–425.
• Brambley (2011) AIAA J. 49(6) 1272–1282.
• Brambley, (2009) J. Sound Vib. 322 1026–1037.
• Brambley & (2008) J. Fluid Mech. 602 403–426.
• Brambley & , (2008) J. Fluid Mech. 596 387–412.