Detail publikace
Numerická simulace a experimentální vizualizace separujíci se kavitující mezní vrstvy profilu NACA2412
KOZÁK, J. RUDOLF, P. SEDLÁŘ, M. HABÁN, V. HUDEC, M. HUZLÍK, R.
Český název
Numerická simulace a experimentální vizualizace separujíci se kavitující mezní vrstvy profilu NACA2412
Anglický název
Numerical simulation and experimental visualization of the separated cavitating boundary layer over NACA2412
Typ
článek ve sborníku ve WoS nebo Scopus
Jazyk
en
Originální abstrakt
Cavitation is physical phenomenon of crucial impact on the operation range and service lifetime of the hydraulic machines (pumps, turbines, valves etc.). Experimental measurement of cavitation is expensive and time consuming process, while some important characteristic of the flow are difficult to measure due to the nature of the phenomenon. Current possibilities of computational fluid dynamics provide a way for deeper understanding of cavitation which is important for many applications in the hydraulic machines industry such as expanding operation range or extending lifetime of the hydraulic machines. Simplified model consists of NACA 2412 hydrofoil with 8 degrees angle of attack fixed in between the walls of cavitation tunnel. Present investigation focuses on comparison of vapor volume fractions obtained by 3D CFD simulations and high speed visualization of the real cavitation phenomena. Several operating regimes corresponding to different cavitation numbers are studied with aim to assess the dynamics of the separated cavitating sheets/clouds
Český abstrakt
Publikace se zabývá dynamikou kavitace při obtékání hydraulického profilu NACA 2412 s fixním úhlem náběhu. Numerické výpočty byly porovnány s experimentálními výsledky.
Anglický abstrakt
Cavitation is physical phenomenon of crucial impact on the operation range and service lifetime of the hydraulic machines (pumps, turbines, valves etc.). Experimental measurement of cavitation is expensive and time consuming process, while some important characteristic of the flow are difficult to measure due to the nature of the phenomenon. Current possibilities of computational fluid dynamics provide a way for deeper understanding of cavitation which is important for many applications in the hydraulic machines industry such as expanding operation range or extending lifetime of the hydraulic machines. Simplified model consists of NACA 2412 hydrofoil with 8 degrees angle of attack fixed in between the walls of cavitation tunnel. Present investigation focuses on comparison of vapor volume fractions obtained by 3D CFD simulations and high speed visualization of the real cavitation phenomena. Several operating regimes corresponding to different cavitation numbers are studied with aim to assess the dynamics of the separated cavitating sheets/clouds
Klíčová slova česky
CFD, kavitace, hydraulický profil, NACA, mezní vrstva
Klíčová slova anglicky
CFD, cavitation, hydrofoil, NACA, boundary layer
Rok RIV
2015
Vydáno
06.05.2015
Nakladatel
EDP Sciences
ISSN
2100-014X
Kniha
EPJ Web of Conferences
Ročník
92
Číslo
5
Strany od–do
1–8
Počet stran
8
BIBTEX
@inproceedings{BUT114541,
author="Jiří {Kozák} and Pavel {Rudolf} and Milan {Sedlář} and Vladimír {Habán} and Martin {Hudec} and Rostislav {Huzlík},
title="Numerical simulation and experimental visualization of the separated cavitating boundary layer over NACA2412",
booktitle="EPJ Web of Conferences",
year="2015",
volume="92",
number="5",
month="May",
pages="1--8",
publisher="EDP Sciences",
issn="2100-014X"
}