@ARTICLE{Malekshah_Emad_Hasani_Experimental_2022, author={Malekshah, Emad Hasani and Wróblewski, Włodzimierz and Bochon, Krzysztof and Majkut, Mirosław and Rusin, Krzysztof}, volume={vol. 43}, number={No 3}, journal={Archives of Thermodynamics}, pages={63-84}, howpublished={online}, year={2022}, publisher={The Committee of Thermodynamics and Combustion of the Polish Academy of Sciences and The Institute of Fluid-Flow Machinery Polish Academy of Sciences}, abstract={The highly dynamic and unsteady characteristics of the cavitating flow cause many negative effects such as erosion, noise and vibration. Also, in the real application, it is inevitable to neglect the dissolved air in the water, although it is usually neglected in the previous works to reduce the complexity. The novelty of the present work is analysing the impact of dissolved air on the average/unsteady characteristics of Venturi flow by conducting sets of experimental tests. For this purpose, two different amounts of dissolved air at five pressure levels (i.e. five different sets of cavitation numbers) were considered in the study of cavitating flow inside a Venturi nozzle. The fast Fourier transform analysis of pressure fluctuations proved that the shedding frequency reduces almost by 50% to 66%, depending on the case, with adding the amount of dissolved air. However, the reduction of 14% to 25% is achieved by the vibration transducers. On the other hand, the cavity enlarges as well as bubbly flow is observed in the test chamber at a higher level of dissolved air. Furthermore, it is observed that the re-entrant jet, as the main reason for the cavity detachment, is more effective for the detachment process in cases with a lower level of dissolved air, where the re-entrant jet front penetrates more toward the leading edge.}, type={Article}, title={Experimental analysis on unsteady characteristics of sheet/cloud cavitating Venturi flow under the effect of dissolved air}, URL={http://journals.pan.pl/Content/124795/PDF-MASTER/art04_int.pdf}, doi={10.24425/ather.2022.143172}, keywords={Cavitating flow, Venturi nozzle, Dissolved air, Unsteady characteristic, Experimental observation}, }