Dr Qin Qin

Dr Qin Qin

Lecturer in Acoustics

Faculty and Department

  • Faculty of Science and Engineering
  • School of Engineering

Summary

In charge of the Acoustics Research Centre/ Leader of the Foundation Engineering and Acoustics modules.

Dr Qin Qin is a lecturer who is currently responsible for delivering two undergraduate lecture modules, along with his research activities funded by EPSRC and Siemens.

He has been working on a number of externally-funded research projects in addition to student supervision activities.

Recent outputs

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Journal Article

A porous media model for the numerical simulation of acoustic attenuation by perforated liners in the presence of grazing flows

Wang, J., Rubini, P., & Qin, Q. (2021). A porous media model for the numerical simulation of acoustic attenuation by perforated liners in the presence of grazing flows. Applied Sciences, 11(10), Article 4677. https://doi.org/10.3390/app11104677

A model to predict acoustic resonant frequencies of distributed Helmholtz resonators on gas turbine engines

Wang, J., Rubini, P., Qin, Q., & Houston, B. (2019). A model to predict acoustic resonant frequencies of distributed Helmholtz resonators on gas turbine engines. Applied Sciences, 9(7), Article 1419. https://doi.org/10.3390/app9071419

Sound transmission loss of hierarchically porous composites produced by hydrogel templating and viscous trapping techniques

Thompson, B. R., Taylor, B. L., Qin, Q., Stoyanov, S. D., Horozov, T. S., & Paunov, V. N. (2017). Sound transmission loss of hierarchically porous composites produced by hydrogel templating and viscous trapping techniques. Materials Chemistry Frontiers, 1(12), 2627-2637. https://doi.org/10.1039/c7qm00371d

Application of a porous media model for the acoustic damping of perforated plate absorbers

Wang, J., Rubini, P., & Qin, Q. (2017). Application of a porous media model for the acoustic damping of perforated plate absorbers. Applied acoustics. Acoustique appliqué. Angewandte Akustik, 127, 324-335. https://doi.org/10.1016/j.apacoust.2017.07.003

Sound absorption of porous cement composites: effects of the porosity and the pore size

Rutkevičius, M., Austin, Z., Chalk, B., Mehl, G. H., Qin, Q., Rubini, P. A., Stoyanov, S. D., & Paunov, V. N. (2015). Sound absorption of porous cement composites: effects of the porosity and the pore size. Journal of materials science, 50(9), 3495-3503. https://doi.org/10.1007/s10853-015-8912-5

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