[1] Dykas S., Wróblewski W., Rulik S., Chmielniak T.: Numerical method for modelling of acoustic waves propagation. Arch. Acoust. 35(2010), 1, 35–48.
[2] Fortuna S., Sobczak K.: Numerical and experimental investigations of the flow in radial fan. Mechanics 27(2008), 4, 138–143
[3] Moon Y.J., Cho Y., Nam H.S.: Computation of unsteady viscous flow and aeroacoustic noise of the cross flow fan. Comput. Fluids 32(2003), 7, 995–1015.
[4] Rulik S., Dykas S., Wroblewski W.: Modelling of aerodynamic noise using hybrid SAS and DES methods. In: Proc. ASME Turbo Expo 2010: Power for Land, Sea and Air, Glasgow, June 14–18, 2010, 7(2010), 2835–2844., GT2010-2269.
[5] Stasko T., Dykas S., Majkut M., Smolka K.: An attempt to evaluate the cycloidal rotor fan performance. Open J. Fluid Dynam. 9(2019), 4.
[6] Benedek T., Vad J.: Beamforming based extension of semi-empirical noise modelling for low-speed axial flow fans. Appl. Acoust. 178(2021), 108018.
[7] Jiang H., Wang Q., Zheng T.F., Tu C.X., Zhang K.: PIV measurement of internal flow field in a range hood. In: Energy and Mechanical Engineering (S.Y. Liang, Ed.), 2015 Int. Conf. on Energy and Mechanical Engineering, Wuhan, 17-18 Oct. 2015, World Scientific, 2016, 570–575.
[8] Probst M., Pritz B.: Quantitative validation of CFD-simulation against PIV data for a centrifugal fan. In: Proc. 14th Int. Symp. on Experimental Computational Aerothermodynamics of Internal Flows, Gdansk 8-11 July 2019.
[9] Neise W., Michel U.: Aerodynamic Noise of Turbomachines. DLR-Interner Bericht, Berlin 1994.
[10] Jeon W.H., Lee D.J., Rhee H.: An application of the acoustic similarity law to the numerical analysis of centrifugal fan noise. JSME Int. J. C-mech Sy. 47(2004), 3, 845–851.
[11] Kissner C., Guerin S.: Comparison of predicted fan broadband noise using a twoversus a three-dimensional synthetic turbulence method. J. Sound Vib. 508(2021), 116221.
[12] Jaron R., Herthum H., Franke M., Moreau A., Guerin S.: Impact of turbulence models on RANS-informed prediction of fan broadband interaction noise. In: Proc. 12th Eur. Turbomachinery Conference (ETC), Stockholm, 3-7 April, 2017.
[13] Carolus T.: Theoretische und experimentelle Untersuchung des Pumpens von lufttechnischen Anlagen mit Radialventilatoren. PhD thesis, Karlsruhe University of Applied Sciences, Karlsruhe 1984.
[14] Blazquez-Navarro R., Corral R.: Prediction of fan acoustic blockage on fan/outlet guide vane broadband interaction noise using frequency domain linearized Navier–Stokes solvers. J. Sound Vib. 508(2021), 116033.
[15] Ffowcs-Williams J.E., Hawkings D.L.: Sound generation by turbulence and surfaces in arbitrary motion. Philos. T.R. Soc. Lond. S-A, 264(1969), 1151, 321–342.
[16] Lighthill M.J.: On sound generated aerodynamically. I. General theory. Proc. R. Soc. Lon. Ser.-A 211(1952) 1107, 564–587
[17] Menter F.R., Egorov Y.: A scale-adaptive simulation model using two-equation models. In: Proc. 43th AIAA Aerospace Sciences Meeting and Exhibit, Reno, 10-13 Jan. 2005, AIAA 2005-1095.
[18] Ansys Fluent Theory Guide, 2021R1.
https://www.ansys.com (acessed 1 July 12021).