Journals

 
  1. M. Ottersten, H.-D. Yao, and L. Davidson , “Tonal noise of voluteless centrifugal fan generated by turbulence stemming from upstream inlet gap”, Physics of Fluids 33, 075110, 2021. DOI: https://doi.org/10.1063/5.0055242
  2. A. Magrini, E. Benini, H.-D. Yao, J. Postma, C. Sheaf. A review of installation effects of ultra-high bypass ratio engines. Progress in Aerospace Sciences, 119: 100680, 2020. DOI: https://doi.org/10.1016/j.paerosci.2020.100680
  3. X. Li, Y. Zhao, Z. Liu, H.-D. Yao, H. Chen. A new method for performance map prediction of automotive turbocharger compressors with both vaneless and vaned diffusers. Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering. November 2020. DOI:10.1177/0954407020971252
  4. Z. Huang, H.-D. Yao, O. Sjögren, A. Lundbladh, L. Davidson. Aeroacoustic analysis of aerodynamically optimized joined-blade propeller for future electric aircraft at cruise and take-off. Aerospace Science and Technology, 106336, 2020, DOI: https://doi.org/10.1016/j.ast.2020.106336
  5. X. Li; Y. Zhao; H.-D. Yao; M. Zhao, and Z. Liu. A new method for impeller inlet design of supercritical CO2 centrifugal compressors in Brayton cycles. Energies, 13, 5049, 2020, DOI: https://doi.org/10.3390/en13195049
  6. G. Minellia, H.-D. Yao, N. Andersson, D. Lindblad, P. Höstmad, J. Forssénd, S. Krajnović. Using horizontal sonic crystals to reduce the aeroacoustic signature of a simplified ICE3 train model. Applied Acoustics, 172: 107597, 2020, DOI: https://doi.org/10.1016/j.apacoust.2020.107597
  7. G. Minellia, H.-D. Yao, N. Andersson, P. Höstmad, J. Forssénd, S. Krajnović. An aeroacoustic study of the flow surrounding the front of a simplified ICE3 high-speed train model. Applied Acoustics, 160: 107125, 2020, DOI: https://doi.org/10.1016/j.apacoust.2019.107125
  8. H.-D. Yao, and L. Davidson. Vibro-acoustics response of a simplified glass window excited by the turbulent wake of a quarter-spherocylinder body. The Journal of the Acoustical Society of America, 145, 3163, 2019, DOI: https://doi.org/10.1121/1.5109548
  9. H.-D. Yao, M. Y. Svensson, and H. Nilsson. Deformation of dorsal root ganglion due to pressure transients of venous blood and cerebrospinal fluid in the cervical vertebral canal. Journal of Biomechanics, 2018, DOI: https://doi.org/10.1016/j.jbiomech.2018.05.012.
  10. H.-D. Yao, and L. Davidson. Generation of interior cavity noise due to window vibration excited by turbulent flows past a generic side-view mirror. Physics of Fluids, 30: 036104, 2018.
  11. H.-D. Yao, L. Davidson, and L.-E. Eriksson. Noise radiated by low-Reynolds number flows past a hemisphere at Ma=0.3. Physics of Fluids, 29(7):076102, 2017.
  12. H.-D. Yao, M. Y. Svensson, and H. Nilsson. Transient pressure changes in the vertebral canal during whiplash motion – a hydrodynamic modeling approach. Journal of Biomechanics, 2016, DOI: https://doi.org/10.1016/j.jbiomech.2016.01.005
  13. H.-D. Yao, L. Davidson, and L.-E. Eriksson, S.-H. Peng, O. Grundestam, and P. E. Eliasson. Surface integral analogy approaches for predicting noise from 3D high-lift low-noise wings. Acta Mechanica Sinica, 2014. DOI: 10.1007/s10409-014-0008-y.
  14. J. Zhang, X. Zhang, and H.-D. Yao. Examinations on closure models of conditionally filtered LES. Journal of Engineering Thermophysics, 32(2):357–359, 2011.
  15. H.-D. Yao and G.-W. He. A kinematic subgrid scale model for large eddy simulation of turbulence-generated sound. Journal of Turbulence, 10(19):1–14, 2009.
  16. H.-D. Yao, G.-W. He, M. Wang, and X. Zhang. Time correlations of pressure in isotropic turbulence. Physics of Fluids, 20:025105, 2008.

Book Chapter

  1. H.-D. Yao, G.-W. He, X. Zhang (2007) Computation of Turbulence-Generated Noise by Large-Eddy Simulation. In: F.G. Zhuang, J.C. Li (eds) New Trends in Fluid Mechanics Research. Springer, Berlin, Heidelberg. Print ISBN: 978-3-540-75994-2. Online ISBN: 978-3-540-75995-9. DOI: https://doi.org/10.1007/978-3-540-75995-9_21

Conferences

  1. O. Fares, C. Weng, L. Zackrisson, H.-D. Yao, M. Knutsson. Numerical Investigation of Narrow-Band Noise Generation by Automotive Cooling Fans. 11th International Styrian Noise, Vibration & Harshness Congress: The European Automotive Noise Conference. SAE technical paper 2020-01-1513. 2020. DOI: https://doi.org/10.4271/2020-01-1513
  2. X. Li, H.-D. Yao. Installation effects on engine design. 3rd ECATS Conference: Making Aviation Environmentally Sustainable, Gothenburg, Sweden, 13-15 Oct. 2020.
  3. Z. J. Huang, H.-D. Yao, A. Lundbladh, L. Davidson, Low-Noise Propeller Design for Quiet Electric Aircraft, AIAA 2020-2596, 2020.
  4. S. Wasala, S.-H. Peng, H.-D. Yao, and L. Davidson. Airframe Noise Reduction for a Wing-flap Configuration Using DBD Plasma Actuators. In AIAA paper. AIAA 2019-2576, 2019.
  5. B. Y. Zhou, N. R. Gauger, H.-D. Yao, S.-H. Peng, and L. Davidson. Towards Adjoint-based Broadband Noise Minimization using Stochastic Noise Generation. In AIAA paper. AIAA 2019-0002, 2019.
  6. B. Mazeaud, Z. Chronéer, M. Karlsson, H.-D. Yao, B. Petit, and Y. Detandt. Application of SNGR Method to Compute Aero-Vibro-Acoustics of Heavy-Duty Rear-View Mirrors. In AIAA paper. AIAA 2019-2727, 2019.
  7. B. Y. Zhou, N. R. Gauger, H.-D. Yao, S.-H. Peng, and L. Davidson. Adjoint-based Broadband Noise Minimization using Stochastic Noise Generation. In AIAA paper. AIAA 2019-2697, 2019.
  8. H.-D. Yao, L. Davidson, and Z. Chronéer. Investigation of Interior Noise from Generic Side-View Mirror Using Incompressible and Compressible Solvers of DES and LES. In WCXTM18: SAE World Congress Experience. SAE 2018-01-0735, 2018.
  9. H.-D. Yao, L. Davidson, and Z. Chronéer. Simplifications Applied for Simulation of Turbulence Induced by a Side View Mirror of a Full-Scale Truck Using DES. In WCXTM18: SAE World Congress Experience. SAE 2018-01-0708, 2018.
  10. M. Ottersten, H.-D. Yao, and L. Davidson. Unsteady simulation of tonal noise from isolated centrifugal fan. In FAN 2018. 2018.
  11. H.-D. Yao, L. Davidson, S.-H. Peng, L.-E. Eriksson, M. Barbarino, F. Capizzano, and G. Mingione. Assessment of flap side-edge fence noise using SNGR method. In AIAA AVIATION 2015, 21st AIAA/CEAS Aeroacoustics Conference. AIAA 2015-2224, 2015.
  12. H.-D. Yao, L. Davidson, S.-H. Peng, F. Capizzano, M. Barbarino, and G. Mingione. Assessment of conceptual noise reduction devices for a main landing gear using SNGR method. In AIAA AVIATION 2015, 21st AIAA/CEAS Aeroacoustics Conference. AIAA 2015-2692, 2015.
  13. S.-H. Peng, L. Tysell, H.-D. Yao, L. Davidson, and L.-E. Eriksson. CAA analysis of a wing section with flap side-edges based on hybrid RANS-LES computation. In AIAA AVIATION 2015, 21st AIAA/CEAS Aeroacoustics Conference. AIAA 2015-2839, 2015.
  14. H.-D. Yao, S.-H. Peng, L. Davidson, and L.-E. Eriksson. Aero-acoustic analysis and assessment of conceptual low-noise airframe configurations. In The 2nd GRAIN2 Open Workshop and Mid-term Review ’Greening Aviation – A Global Challenge’, Xi’an, China, 5th-8th May, 2015.
  15. M. Barbarino, I. Dimino, A. Carozza, C. Nae, C. Stoica, V. Pricop, S.H. Peng, P. Eliasson, O. Grundestam, L. Tysell, L. Davidson, L.E. Eriksson, H.D. Yao, S. Ben-Khelil, F. Moens, T. Le Garrec, D.C. Mincu, F. Simon, E. Manoha, J.L. Godard, M.A. Averardo, Airframe noise reduction technologies applied to high-lift devices of future green regional aircraft. In Greener Aviation: Clean Sky breakthroughs and worldwide status. Brussels, 12th to 14th March, 2014. (Best paper award)
  16. G. Mingione, G. Rapicano, M.A. Averardo, M. Di Giulio, T. Rougier, P. Brandstätt, S.-H. Peng, L. Davidson, H.-D. Yao, K. Kucukcoskun, M. Mesbah Landing gear noise reduction technology development for future green regional aircraft. In Greener Aviation: Clean Sky breakthroughs and worldwide status. Brussels, 12th to 14th March, 2014.
  17. H.-D. Yao, L. Davidson, L.-E. Eriksson, O. Grundestam, S.-H. Peng, and P. E. Eliasson. Surface integral analogy approaches to computing noise generated by a 3d high-lift wing configuration. In 50th AIAA Aerospace Sciences Meeting. AIAA 2012-386, 2012.
  18. H.-D. Yao, L.-E. Eriksson, L. Davidson, O. Grundestam, S.-H. Peng, and P. E. Eliasson. Aeroacoustic assessment of conceptual low-noise high-lift wing configurations. AIAA 2012-383, 2012.
  19. O. Grundestam, S.-H. Peng, P. E. Eliasson, H.-D. Yao, L. Davidson, and L.-E. Eriksson. Local flow properties in relation to noise generation for low-noise high-lift configurations. In 50th AIAA Aerospace Sciences Meeting. AIAA 2012-278, 2012.
  20. P. E. Eliasson, O. Grundestam, S.-H. Peng, H.-D. Yao, L. Davidson, and L.-E. Eriksson. Assessment of high-lift concepts for a regional aircraft in the ALONOCO project. In 50th AIAA Aerospace Sciences Meeting. AIAA 2012-277, 2012.
  21. G.-W. He, H.-D. Yao, and X. Zhao. Prediction of space-time correlations by large eddy simulation. In 46th AIAA Aerospace Sciences Meeting and Exhibit. AIAA 2008-1155, 2008.
  22. H.-D. Yao and G.-W. He. Prediction of space-time correlations by large eddy simulation. In 5th International Conference on Fluid Mechanics, Shanghai. 83, 2007.
  23. H.-D. Yao and G.-W. He. Space-time correlations of pressure in isotropic turbulence. In 8th National Conference on Turbulence and Flow Stability, Beijing. 516, 2007.  

Preprints


  1. M. Ottersten, H-D. Yao and L. Davidson. 2021. Tonal Noise of Voluteless Centrifugal Fan Generated by Turbulence Stemming from Upstream Inlet Gap. arXiv:2104.13476 [physics.flu-dyn]
  2. M. Ottersten, H-D. Yao and L. Davidson. 2020. Unsteady Simulation of Tonal Noise from Isolated Centrifugal Fan. engrXiv. December 15. doi:10.31224/osf.io/yx7rj.
  3. M. Ottersten, H-D. Yao and L. Davidson. 2020. Numerical and experimental study of tonal noise sources at the outlet of an isolated centrifugal fan. arXiv:2011.13645 [cs.CE]

Reports

 
  1. H.-D. Yao, L. Davidson. Vehicle cabin noise. In: D. Gely, G. J. Bennett (eds) Aeroacoustics research in Europe: the CEAS-ASC report on 2018 highlights. Journal of Sound and Vibration, 463: 114950, 2019. DOI: https://doi.org/10.1016/j.jsv.2019.114950 
  2. Z. Chronéer, M. Karlsson, H.-D. Yao, L. Davidson, Prediktering av extern flödesakustiks påverkan på hyttbuller, VINNOVA-FFI 2014-01386, 2019, https://www.vinnova.se/globalassets/mikrosajter/ffi/dokument/slutrapporter-ffi/elektronik-mjukvara-och-kommunikation-rapporter/2014-01386.pdf