Plunging jets are used in many industrial and civil applications, as for example in sewage and water treatment plants, in order to enhance aeration and mass transfer of volatile gases. They are also observed in natural processes as rivers self-purification, waterfalls and weirs. Many investigations dealt with the plunging jets in different configurations, but the dependence on Reynolds number and jet geometry were still not sufficiently addressed. For example, Mishra et al. (2020) studied an oblique submerged water impinging jet at different nozzle-to-plate distances and impingement angles, but only at a rather small Reynolds numbers (2600). On the other hand, different jet geometries have been extensively considered, but not for the plunging jet configuration (Mi, 2000; Hashiehbaf & Romano, 2013). In this work, plunging water jets issuing in air from orifices of different shape are considered. The aim of the work is to detail and compare jet behaviors in terms of velocity fields generated after impacting the air-water interface, as a function of Reynolds number and orifice geometry. However, air bubbles entrainment is mainly avoided in order to study the jet characteristics in a simpler case and use it as a reference starting point for future works.

Plunging jet from orifices of different geometries / Moscato, Giorgio; Romano, Giovanni Paolo. - (2021). (Intervento presentato al convegno 14th International Symposium on Particle Image Velocimetry tenutosi a Chicago,United States) [10.18409/ispiv.v1i1.124].

Plunging jet from orifices of different geometries

Giorgio Moscato
Primo
Investigation
;
Giovanni Paolo Romano
Ultimo
Supervision
2021

Abstract

Plunging jets are used in many industrial and civil applications, as for example in sewage and water treatment plants, in order to enhance aeration and mass transfer of volatile gases. They are also observed in natural processes as rivers self-purification, waterfalls and weirs. Many investigations dealt with the plunging jets in different configurations, but the dependence on Reynolds number and jet geometry were still not sufficiently addressed. For example, Mishra et al. (2020) studied an oblique submerged water impinging jet at different nozzle-to-plate distances and impingement angles, but only at a rather small Reynolds numbers (2600). On the other hand, different jet geometries have been extensively considered, but not for the plunging jet configuration (Mi, 2000; Hashiehbaf & Romano, 2013). In this work, plunging water jets issuing in air from orifices of different shape are considered. The aim of the work is to detail and compare jet behaviors in terms of velocity fields generated after impacting the air-water interface, as a function of Reynolds number and orifice geometry. However, air bubbles entrainment is mainly avoided in order to study the jet characteristics in a simpler case and use it as a reference starting point for future works.
2021
14th International Symposium on Particle Image Velocimetry
04 Pubblicazione in atti di convegno::04d Abstract in atti di convegno
Plunging jet from orifices of different geometries / Moscato, Giorgio; Romano, Giovanni Paolo. - (2021). (Intervento presentato al convegno 14th International Symposium on Particle Image Velocimetry tenutosi a Chicago,United States) [10.18409/ispiv.v1i1.124].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1619366
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