Wensing M, Rieß S, Mamaikin D, Conrad C, Neubauer A (2021)
Publication Language: English
Publication Type: Book chapter / Article in edited volumes
Publication year: 2021
Publisher: Academic Press
Edited Volumes: Cavitation and Bubble Dynamics – Fundamentals and Applications
Pages Range: 265 – 302
ISBN: 978-0-12-823388-7
DOI: 10.1016/b978-0-12-823388-7.00002-3
Cavitation may appear in various hydraulic components, such as injectors, pumps,
and valves. These components are used in various technical fields, such as industrial
hydraulic systems or automotive systems (steering, braking, and injection
systems). The phenomena of cavitation play an important role in the performance
of modern fuel injectors. Researchers in both academia and industry have intensively
studied this field of hydrodynamics in recent decades. Such a strong
interest is due to the appearance of cavitation inside fuel injector nozzles, which
influences the spray characteristics and overall function of the injectors.
Generally, the phenomena of cavitation can be investigated experimentally as
well as numerically. The chapter focuses on techniques and examples for experimental investigations
APA:
Wensing, M., Rieß, S., Mamaikin, D., Conrad, C., & Neubauer, A. (2021). Experimental Diagnostics and Investigations on Cavitation in Engine Injector Nozzles. In Phoevos Koukouvinis, Manolis Gavaises (Eds.), Cavitation and Bubble Dynamics – Fundamentals and Applications. (pp. 265 – 302). Academic Press.
MLA:
Wensing, Michael, et al. "Experimental Diagnostics and Investigations on Cavitation in Engine Injector Nozzles." Cavitation and Bubble Dynamics – Fundamentals and Applications. Ed. Phoevos Koukouvinis, Manolis Gavaises, Academic Press, 2021. 265 – 302.
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