Publication detail
Cavitation in Fractal Geometry Orifices
RUDOLF, P. KUBINA, D. HUDEC, M. HOCHMAN, O. POCHYLÝ, F.
English title
Cavitation in Fractal Geometry Orifices
Type
Paper in proceedings (conference paper)
Language
en
Original abstract
An experimental research of three types of orifices was carried out in a hydraulic circuit. One-hole orifice and two fractal-shaped orifices (von Koch snowflake, Apollonian gasket) were tested. Fractal-shaped orifices had lower pressure loss in non-cavitating regime. For cavitating conditions, von Koch snowflake orifice maintained the reduced pressure loss, while pressure loss curve within Apollonian gasket orifice gradually aligned with that of one-hole orifice. Dynamics of the cavitating flow behind the orifices featured distinct peak for one-hole orifice connected with shedding of one strong coherent vortical structure, while pressure amplitudes for fractal-shaped orifices (especially von Koch snowflake orifice) were significantly lower. This conclusion is attributed to multiscale behavior of the flow behind the fractal-shaped orifices.
Keywords in English
cavitation; fractal shape; hydraulic loss; pressure pulsations
Released
2018-12-03
Publisher
ASME
ISBN
9780791861851
Book
Proceedings of the 10th Symposium on Cavitation (CAV2018)
Pages from–to
1–5
Pages count
5
BIBTEX
@inproceedings{BUT153419,
author="Pavel {Rudolf} and Dávid {Kubina} and Martin {Hudec} and Ondřej {Hochman} and František {Pochylý}",
title="Cavitation in Fractal Geometry Orifices",
booktitle="Proceedings of the 10th Symposium on Cavitation (CAV2018)",
year="2018",
pages="1--5",
publisher="ASME",
isbn="9780791861851"
}