Modelling the erosion efficiency of cavitation cleaning jets

Vickers, G. W. ; Houlston, R.
Springer
Published 1983

ISSN:	1573-1987
Source:	Springer Online Journal Archives 1860-2000
Topics:	Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics
Notes:	Abstract A model is presented of the erosion damage and cleaning efficiency of cavitation and conventional cleaning jets. The effect of supply pressure, jet velocity, standoff distance, nozzle diameter and type of fluid are considered and assessed in relation to experimental findings.
Type of Medium:	Electronic Resource
URL:	http://dx.doi.org/10.1007/BF00383042

Staff View

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autor	Vickers, G. W. Houlston, R.
autorsonst	Vickers, G. W. Houlston, R.
book_url	http://dx.doi.org/10.1007/BF00383042
datenlieferant	nat_lic_papers
hauptsatz	hsatz_simple
identnr	NLM192984527
issn	1573-1987
journal_name	Flow, turbulence and combustion
materialart	1
notes	Abstract A model is presented of the erosion damage and cleaning efficiency of cavitation and conventional cleaning jets. The effect of supply pressure, jet velocity, standoff distance, nozzle diameter and type of fluid are considered and assessed in relation to experimental findings.
package_name	Springer
publikationsjahr_anzeige	1983
publikationsjahr_facette	1983
publikationsjahr_intervall	8019:1980-1984
publikationsjahr_sort	1983
publisher	Springer
reference	40 (1983), S. 377-391
search_space	articles
shingle_author_1	Vickers, G. W. Houlston, R.
shingle_author_2	Vickers, G. W. Houlston, R.
shingle_author_3	Vickers, G. W. Houlston, R.
shingle_author_4	Vickers, G. W. Houlston, R.
shingle_catch_all_1	Vickers, G. W. Houlston, R. Modelling the erosion efficiency of cavitation cleaning jets Abstract A model is presented of the erosion damage and cleaning efficiency of cavitation and conventional cleaning jets. The effect of supply pressure, jet velocity, standoff distance, nozzle diameter and type of fluid are considered and assessed in relation to experimental findings. 1573-1987 15731987 Springer
shingle_catch_all_2	Vickers, G. W. Houlston, R. Modelling the erosion efficiency of cavitation cleaning jets Abstract A model is presented of the erosion damage and cleaning efficiency of cavitation and conventional cleaning jets. The effect of supply pressure, jet velocity, standoff distance, nozzle diameter and type of fluid are considered and assessed in relation to experimental findings. 1573-1987 15731987 Springer
shingle_catch_all_3	Vickers, G. W. Houlston, R. Modelling the erosion efficiency of cavitation cleaning jets Abstract A model is presented of the erosion damage and cleaning efficiency of cavitation and conventional cleaning jets. The effect of supply pressure, jet velocity, standoff distance, nozzle diameter and type of fluid are considered and assessed in relation to experimental findings. 1573-1987 15731987 Springer
shingle_catch_all_4	Vickers, G. W. Houlston, R. Modelling the erosion efficiency of cavitation cleaning jets Abstract A model is presented of the erosion damage and cleaning efficiency of cavitation and conventional cleaning jets. The effect of supply pressure, jet velocity, standoff distance, nozzle diameter and type of fluid are considered and assessed in relation to experimental findings. 1573-1987 15731987 Springer
shingle_title_1	Modelling the erosion efficiency of cavitation cleaning jets
shingle_title_2	Modelling the erosion efficiency of cavitation cleaning jets
shingle_title_3	Modelling the erosion efficiency of cavitation cleaning jets
shingle_title_4	Modelling the erosion efficiency of cavitation cleaning jets
sigel_instance_filter	dkfz geomar wilbert ipn albert fhp
source_archive	Springer Online Journal Archives 1860-2000
timestamp	2024-05-06T09:55:08.843Z
titel	Modelling the erosion efficiency of cavitation cleaning jets
titel_suche	Modelling the erosion efficiency of cavitation cleaning jets
topic	ZL
uid	nat_lic_papers_NLM192984527