Effect of Combustor Geometry on Performance of Airblast Atomizer Under Sub-Atmospheric Conditions

Grech, Nicholas; Mehdi, Ahad; Zachos, Pavlos K.; Pachidis, Vassilios; Singh, Riti

doi:10.1080/19942060.2012.11015415

Cited by 12 publications

(12 citation statements)

References 13 publications

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“…As can be seen, there is an increase of the overall combustion duration from 45 • for B0 to 46.7 • for B20 blend due to higher droplet diameters which lead to slower combustion. The higher the Sauter mean diameter, the less easy it is for a droplet to evaporate [18]. On the other hand, burn duration 0-10% and 0-50% are lower using B20, leading to faster combustion during combustion premixed phase until crank angle of 50% burn point.…”

Section: Combustion Characteristicsmentioning

confidence: 99%

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Experimental Investigation of the Effect of Biodiesel Blends on a DI Diesel Engine’s Injection and Combustion

Tziourtzioumis

Stamatelos

2017

Energies

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Differences in the evolution of combustion in a single cylinder, DI (direct injection) diesel engine fuelled by B20 were observed upon processing of the respective indicator diagrams. Aiming to further investigate the effects of biodiesel on the engine injection and combustion process, the injection characteristics of B0, B20, B40, B60, B80 and B100 were measured at low injection pressure and visualized at low and standard injection pressures. The fuel atomization characteristics were investigated in terms of mean droplet velocity, Sauter mean diameter, droplet velocity and diameter distributions by using a spray visualization system and Laser Doppler Velocimetry. The jet break-up characteristics are mainly influenced by the Weber number, which is lower for biodiesel, mainly due to its higher surface tension. Thus, Sauter mean diameter (SMD) of sprays with biodiesel blended-fuel is higher. Volume mean diameter (VMD) and arithmetic mean diameter (AMD) values also increase with blending ratio. Kinematic viscosity and surface tension become higher as the biodiesel blending ratio increases. The SMD, VMD and AMD of diesel and biodiesel blended fuels decreased with an increase in the axial distance from spray tip. Comparison of estimated fuel burning rates for 60,000 droplets' samples points to a decrease in mean fuel burning rate for B20 and higher blends.

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Section: Combustion Characteristicsmentioning

confidence: 99%

“…The higher the Sauter mean diameter, the less easy it is for a droplet to evaporate [18]. On the other hand, burn duration 0-10% and 0-50% are lower using B20, leading to faster combustion during combustion premixed phase until crank angle of 50% burn point.…”

Section: Combustion Characteristicsmentioning

confidence: 99%

Experimental Investigation of the Effect of Biodiesel Blends on a DI Diesel Engine’s Injection and Combustion

Tziourtzioumis

Stamatelos

2017

Energies

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“…The suitable volumes of air in the liner of the primary, secondary and dilute holes were found to be 22.51%, 22.93% and 54.56%, respectively [11]. However, the volume of combustion chamber did not have an effect on creating CRZ because the air/fuel ratio was still constant [12]. In addition, the turbulence model in this work showed that the turbulence k-ɛ standard gave better results for combustor prediction than other turbulence models [11,13,15,16,17].…”

Section: Introductionmentioning

confidence: 99%

Effect of various inlet geometries on swirling flow in can combustor

Treedet¹,

Suntivarakorn²

2018

J. MECH. ENG. SCI.

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This paper presents the effects of various inlet geometries on swirling flow and a study of the flow behavior of air in the can combustor using a CFD model. In this work, the standard k-ɛ turbulence model was used. Furthermore, for this study, the can combustor had an inner diameter, outer diameter, and length of 250 mm, 290 mm, and 406 mm, respectively. An annular swirler was used in order to generate a re-circulating velocity in the chamber of combustor. Various inlet geometries were designed and experiments were conducted to study the effects of these designs on the swirling flow inside the combustor. To understand the flow behavior, the snout angles varied at 30°, 45°, and 60° angles, and the hub to tip ratio of the vane swirler varied at 0.33 and 0.67. The results showed that the following had an influence upon the Central Re-circulating Zone (CRZ) and Pressure Loss factor (PLF) in a combustor: 1) the snout angle, 2) the hub to tip ratio of the annular swirler, and 3) the auxiliary primary holes. It was also found that the optimum design of this can combustor had a snout angle of 30 degrees and a hub to tip ratio of the swirler of 0.33. In order to create the optimum design for a large CRZ and lowest PLF, it was found that auxiliary primary holes should be also used.

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“…Lefebvre and his team obtained series of important achievements on twin-fluid atomizers and proved that twin-fluid atomizers have many advantages over other types of atomizers, since they require lower pump pressures and produce a finer spray [4]. The applications of twin-fluid atomizer are focused on engine combustion [6,7], humidification [8], gas cooling [9], spray painting [10] and spray drying [11], etc.…”

Section: Nomenclaturementioning

confidence: 99%

Influence of Some Geometrical Parameters on the Characteristics of Prefilming Twin-Fluid Atomization

Yao

Furusawa²,

Kawahara

et al. 2014

Transactions of the Canadian Society for Mechanical Engineering

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Geometries are considered to have a great influence on the spray characteristics of atomizers. In the present study, we studied a prefilming twin-fluid atomizer patented by , in which liquid atomization is implemented by supplying compressed air alone into an internal mixing chamber, and water is automatically sucked by the negative pressure induced by an orifice. In the experiments, we studied spray characteristics influenced by the geometrical parameters, such as orifices in different opening area ratios and different shapes, porous rings with different porous diameters, and different atomizer sizes. Higher spray performance can be obtained by a small sized atomizer with a circular orifice in opening area ratio of 0.429 and a porous fiber ring with porosity of 25 µm. The present results provide a significant guidance for practical applications with different requirements of spray characteristics.

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Effect of Combustor Geometry on Performance of Airblast Atomizer Under Sub-Atmospheric Conditions

Cited by 12 publications

References 13 publications

Experimental Investigation of the Effect of Biodiesel Blends on a DI Diesel Engine’s Injection and Combustion

Experimental Investigation of the Effect of Biodiesel Blends on a DI Diesel Engine’s Injection and Combustion

Effect of various inlet geometries on swirling flow in can combustor

Influence of Some Geometrical Parameters on the Characteristics of Prefilming Twin-Fluid Atomization

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