Vortex flow and cavitation in diesel injector nozzles

Andriotis, A.; Gavaises, Manolis; Arcoumanis, C.

doi:10.1017/s0022112008002668

Cited by 157 publications

(107 citation statements)

References 38 publications

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“…This interaction is similar to vorticity bridging that was observed during the merging of two corotating wing-tip vortices presented by Chang et al 9 and suggests the transport of cavitation vapor between holes. This observation is also in keeping with the previous findings 5,7,8 that observed significant holeto-hole interaction in their larger scale experimental studies.…”

Section: Phys Fluids 22 031703 ͑2010͒supporting

confidence: 93%

“…Appearing similar to vortex cavitation, as observed in propeller flows, 6 the presence of "cavitation strings" in injector flows has not been widely documented. Gavaises and Andriotis 7 and Andriotis et al, 8 however, showed that the dynamic nature of the nozzle-hole cavitation and sac-vortex interaction leads to hole-to-hole variations in hole flow and spray angle that were attributed to the presence of vortices in the hole entrance region. Although it remains important to quantify the potential influence of these near-hole vortices on the downstream nozzle flow, it is essential to consider the mechanisms of their formation if they are to be controlled and their influence is to be exploited.…”

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confidence: 99%

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An investigation of string cavitation in a true-scale fuel injector flow geometry at high pressure

Reid¹,

Hargrave²,

Garner³

et al. 2010

Physics of Fluids

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String cavitation has been studied in an optical automotive size fuel injector with true-scale flow geometry at injection pressures of up to 2050 bar. The multihole nozzle geometry studied allowed observation of the hole-to-hole vortex interaction and, in particular, that of a bridging vortex in the sac region between the holes. A dependency on Reynolds number was observed in the formation of the visible, vapor filled vortex cores. Above a threshold Reynolds number, their formation and appearance during a 2 ms injection event was repeatable and independent of upstream pressure and cavitation number.

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Section: Phys Fluids 22 031703 ͑2010͒supporting

confidence: 93%

mentioning

confidence: 99%

An investigation of string cavitation in a true-scale fuel injector flow geometry at high pressure

Reid¹,

Hargrave²,

Garner³

et al. 2010

Physics of Fluids

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show abstract

“…In [5] there is evidence that geometric-induced and vortex cavitation are interrelated. String cavitation is dramatically enhanced and owes its existence to sources of vapour already present inside the nozzle volume [8]. Moreover, [24] showed that the structure of a vortex core is significantly affected by entrained vapour bubbles.…”

Section: Introductionmentioning

confidence: 99%

“…The former is the most common form of cavitation in such flow orifices and it has become gradually a relatively well-understood phenomenon; appropriate design of the inlet hole curvature and non-cylindrical injection hole shapes (often referred to as tapered) alter cavitation inception, as shown in [6,7]. On the other hand, vortex cavitation is believed to represent a flow feature that depends mainly on the development of turbulent flow within the nozzle rather than a phenomenon that can be controlled by the nozzle design, as it is the case with the geometric-induced cavitation [see 8,9]. Vortex cavitation is commonly found in propellers, hydraulic turbines and hydrofoils as explained in [10,11,12,13]; further studies have also confirmed similar structures in a variety of nozzle designs [14,15] and even at pressures as high as 2000 bar, as shown in [16].…”

Section: Introductionmentioning

confidence: 99%

Instantaneous and ensemble average cavitation structures in Diesel micro-channel flow orifices

Mitroglou

McLorn

Gavaises

et al. 2014

Fuel

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“…Recent advances dictate the use of extra high injection pressures, of the order of 3000 bar and tiny flow passages (injection holes) of the order of 100-250 μm in diameter, for improved fuel atomisation and combustion efficiency. Under these circumstances, cavitation has been found to develop inside fuel injection nozzles at the early studies of Badock et al (1999), Bergwerk (1959), Chaves et al (1995) and Nurick (1976), followed by Arcoumanis et al (2000), Blessing et al (2003), Mitroglou et al (2014) and Roth et al (2002) in more realistic real-size nozzle geometries offering optical access; equally helpful studies performed in transparent enlarged nozzle replicas [selectively (Andriotis et al 2008;Arcoumanis et al 2000;Miranda et al 2003; Mitroglou and Gavaises 2013;Powell et al 2000)] also indicate that cavitation plays an increasingly significant role in the nozzle's internal flow structure and development. Cavitation inside an injection hole is believed to enhance spray atomisation, either directly through the implosion of cavitation bubbles or indirectly because it increases turbulence in the nozzle flow (Badock et al 1999;Walther 2002); unfortunately, under certain circumstances induces erosion (Dular and Petkovšek 2015;Koukouvinis et al 2016) that may lead to catastrophic failures.…”

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confidence: 99%

Application of X-ray micro-computed tomography on high-speed cavitating diesel fuel flows

et al. 2016

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efficiency of such engines. Among others, the fuel injection equipment (FIE) is a key component for improving the efficiency of environmentally friendly engines. Recent advances dictate the use of extra high injection pressures, of the order of 3000 bar and tiny flow passages (injection holes) of the order of 100-250 μm in diameter, for improved fuel atomisation and combustion efficiency. Under these circumstances, cavitation has been found to develop inside fuel injection nozzles at the early studies of Badock et al. (1999), Bergwerk (1959), Chaves et al. (1995) and Nurick (1976), followed by Arcoumanis et al. (2000), Blessing et al. (2003), Mitroglou et al. (2014) and Roth et al. (2002) in more realistic real-size nozzle geometries offering optical access; equally helpful studies performed in transparent enlarged nozzle replicas [selectively (Andriotis et al. 2008;Arcoumanis et al. 2000;Miranda et al. 2003; Mitroglou and Gavaises 2013;Powell et al. 2000)] also indicate that cavitation plays an increasingly significant role in the nozzle's internal flow structure and development. Cavitation inside an injection hole is believed to enhance spray atomisation, either directly through the implosion of cavitation bubbles or indirectly because it increases turbulence in the nozzle flow (Badock et al. 1999;Walther 2002); unfortunately, under certain circumstances induces erosion (Dular and Petkovšek 2015;Koukouvinis et al. 2016) that may lead to catastrophic failures. Moreover, cavitation inside the injection holes promotes shot-toshot spray instabilities (Mitroglou et al. 2011(Mitroglou et al. , 2012Suh and Lee 2008), which, in turn, are responsible for poor combustion efficiency and increased emissions (Hayashi et al. 2013). Two distinct macroscopic forms of cavitation have been identified, which are referred to as geometryinduced and vortex or 'string' cavitation. The former can be, partially or totally, suppressed by appropriate design of the inlet hole curvature and non-cylindrical injection hole Abstract The flow inside a purpose built enlarged singleorifice nozzle replica is quantified using time-averaged X-ray micro-computed tomography (micro-CT) and highspeed shadowgraphy. Results have been obtained at Reynolds and cavitation numbers similar to those of real-size injectors. Good agreement for the cavitation extent inside the orifice is found between the micro-CT and the corresponding temporal mean 2D cavitation image, as captured by the high-speed camera. However, the internal 3D structure of the developing cavitation cloud reveals a hollow vapour cloud ring formed at the hole entrance and extending only at the lower part of the hole due to the asymmetric flow entry. Moreover, the cavitation volume fraction exhibits a significant gradient along the orifice volume. The cavitation number and the needle valve lift seem to be the most influential operating parameters, while the Reynolds number seems to have only small effect for the range of values tested. Overall, the study demonstrates that use of micro-CT can ...

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Vortex flow and cavitation in diesel injector nozzles

Abstract: This is the unspecified version of the paper.This version of the publication may differ from the final published version. Permanent repository link:

Cited by 157 publications

References 38 publications

An investigation of string cavitation in a true-scale fuel injector flow geometry at high pressure

An investigation of string cavitation in a true-scale fuel injector flow geometry at high pressure

Instantaneous and ensemble average cavitation structures in Diesel micro-channel flow orifices

Application of X-ray micro-computed tomography on high-speed cavitating diesel fuel flows

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