[[1] Noskievič, J. (1990). Cavitation in Hydraulic Machinery and Equipment. Prague, Czech Republic: SNTL. (in Czech). ]Search in Google Scholar
[[2] Pearsall, I. S. (1966). Acoustic detection of cavitation. Proceedings of the Institution of Mechanical Engineers, Conference Proceedings, 181 (1). 10.1243/PIME_CONF_1966_181_004_02]Search in Google Scholar
[[3] Brdička, M., Samek, L., Taraba, O. (1981). Cavitation: Diagnostics and Technical Use). Prague, Czech Republic: SNTL. (in Czech). ]Search in Google Scholar
[[4] Deeprose, W.M., King, N.W., McNulty, P.J. Pearsall, I.S. (1974). Cavitation noise, flow noise and erosion. In Proceedings of the Conference on Cavitation. London, UK: Institute of Mechanical Engineers, 373-381. ]Search in Google Scholar
[[5] Smetana, C. (1998). Noise and Vibration: Measurement and Evaluation. Prague, Czech Republic: Sdělovací technika. (in Czech) ]Search in Google Scholar
[[6] Brennen, Ch.E. (1995). Cavitation and Bubble Dynamics. Oxford University Press. ]Search in Google Scholar
[[7] Jablonská, J., Kozubková, M., Himr, D., Weisz, M. (2016). Methods of experimental investigation of cavitation in a convergent-divergent nozzle of rectangular cross section. Measurement Science Review, 16 (4), 197-204. 10.1515/msr-2016-0024]Search in Google Scholar
[[8] Čarnogurská, M., Příhoda, M., Popčáková, D. (2010). Modelling the flow conditions in the tunnel and its reduced model. Journal of Mechanical Science and Technology, 24 (12), 2479-2486. 10.1007/s12206-010-0810-9]Search in Google Scholar
[[9] Meng, J., Liu, Z., An, K., Yuan, M. (2017). Simulation and optimization of throttle flowmeter with inner-outer tube element. Measurement Science Review, 17 (2), 68-75. 10.1515/msr-2017-0009]Open DOISearch in Google Scholar
[[10] Knížat, B., Olšiak, R., Mlkvik, M. (2014). Observation of development of cavitation damage. EPJ Web of Conferences, 67, 02053. 10.1051/epjconf/20146702053]Search in Google Scholar
[[11] Ternik, P., Rudolf, R. (2013). Laminar natural convection of non-Newtonian nanofluids in a square enclosure with differentially heated side walls. International Journal of Simulation Modelling, 12 (1), 5-16. 10.2507/IJSIMM12(1)1.215]Search in Google Scholar
[[12] Sikora, R., Bureček, A., Hružík, L., Vašina, M. (2015). Experimental investigation of cavitation in pump inlet. EPJ Web of Conferences, 92, 02081. 10.1051/epjconf/20159202081]Search in Google Scholar
[[13] Jablonská, J., Bojko, M. (2015). Multiphase flow and cavitation - comparison of flow in rectangular and circular nozzle. EPJ Web of Conferences, 92, 02028. 10.1051/epjconf/20159202028]Search in Google Scholar
[[14] Schnerr, G.H., Sauer, J. (2002). Physical and numerical modeling of unsteady cavitation dynamics. In 4th International Conference on Multiphase Flow (ICMF-2001). Elsevier. ]Search in Google Scholar
[[15] Bureček, A., Hružík, L., Vašina, M. (2015). Determination of undissolved air content in oil by means of compression method. Strojniški vestnik - Journal of Mechanical Engineering, 61 (7-8), 477-485. 10.5545/sv-jme.2015.2471]Search in Google Scholar
[[16] Bilus, I., Morgut, M., Nobile, E. (2013). Simulation of sheet and cloud cavitation with homogenous transport models. International Journal of Simulation Modelling, 12 (2), 94-10610.2507/IJSIMM12(2)3.229]Search in Google Scholar