Publication detail
Transition of cavitating flow to supercavitation within Venturi nozzle – hysteresis investigation
KOZÁK, J. RUDOLF, P. HUZLÍK, R. HUDEC, M. CHOVANEC, R. MARŠÁLEK, B. MARŠÁLKOVÁ, E. URBAN, O.
English title
Transition of cavitating flow to supercavitation within Venturi nozzle – hysteresis investigation
Type
conference paper
Language
en
Original abstract
Cavitation is usually considered as undesirable phenomena. On the other hand, it can be utilized in many applications. One of the technical applications is using cavitation in water treatment, where hydrodynamic cavitation seems to be effective way how to reduce cyanobacteria within large bulks of water. The main scope of this paper is investigation of the cavitation within Venturi nozzle during the transition from fully developed cavitation to supercavitation regime and vice versa. Transition of cavitating flow to supercavitation within Venturi nozzle – hysteresis investigation.
English abstract
Cavitation is usually considered as undesirable phenomena. On the other hand, it can be utilized in many applications. One of the technical applications is using cavitation in water treatment, where hydrodynamic cavitation seems to be effective way how to reduce cyanobacteria within large bulks of water. The main scope of this paper is investigation of the cavitation within Venturi nozzle during the transition from fully developed cavitation to supercavitation regime and vice versa. Transition of cavitating flow to supercavitation within Venturi nozzle – hysteresis investigation.
Keywords in English
Cavitation, Supercavitation, Venturi tube. High speed records
Released
12.05.2017
ISSN
2100-014X
Book
EPJ web of conferences
Volume
143
Number
02055 (2017)
Pages from–to
1–11
Pages count
11
BIBTEX
@inproceedings{BUT137431,
author="Jiří {Kozák} and Pavel {Rudolf} and Rostislav {Huzlík} and Martin {Hudec} and Radomír {Chovanec} and Blahoslav {Maršálek} and Eliška {Maršálková} and Ondřej {Urban},
title="Transition of cavitating flow to supercavitation within Venturi nozzle – hysteresis investigation",
booktitle="EPJ web of conferences",
year="2017",
volume="143",
number="02055 (2017)",
month="May",
pages="1--11",
issn="2100-014X"
}