High speed stereoscopic shadowgraph imaging and its digital 3D reconstruction

Wang, Q; ZHANG, Yuan-shen

doi:10.1088/0957-0233/22/6/065302

Cited by 19 publications

(14 citation statements)

References 26 publications

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“…In this X-ray X-ray Shadowgraphy Shadowgraphy capacity, X-ray CT scanning provides more detail of spray symmetry and changes in liquid distribution in various locations away from the nozzle. Shadowgraphy can provide spray cone angles and skew, and it has been shown the ability to produce 3D reconstructions with multiple cameras [11]. In principle, a tomographic reconstruction of shadowgraphy data could also be done if a rotation system was used to acquire images from many angles.…”

Section: Comparison Of Resultsmentioning

confidence: 99%

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A Comparison of Shadowgraphy and X-Ray Computed Tomography in Liquid Spray Analysis

Lee

Eichner

Tennis

et al. 2014

Volume 7: Fluids Engineering Systems and Technologies

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This work examines and compares two proven techniques for assessing key characteristics of liquid sprays for combustion applications: shadowgraphy and time-averaged X-ray computed tomography (CT). Atomization has key applications in combustion as it can improve fuel efficiency, increase heat release, and decrease pollutant emissions. To improve the design of fuel injection nozzles, the ability to conduct accurate analyses of sprays is crucial. Key characteristics of the liquid spray, such as mean particle diameter, spray-cone angle, mass distribution, and penetration length give insight into the effectiveness of a nozzle. Shadowgraphy is a relatively inexpensive method that produces a two-dimensional, instantaneous image of the spray particles or spray called a shadowgram. Shadowgrams can be used for analyzing mean particle size, spray-cone angle, and location of breakup regions. X-ray CT measures the time-averaged X-ray absorption of two-dimensional projection images of spray to produce a three-dimensional reconstruction of the spray. X-ray CT can provide valuable insight into the symmetry and mass distribution of a spray; however, X-ray absorption diminishes rapidly with increased distance from nozzles, thereby limiting analysis to the regions near the nozzle. A detailed comparison of the overall effectiveness and insights yielded by the two methods illustrates the unique uses, benefits, and shortcomings of each method. The results confirm that X-ray CT scanning proves more effective in the dense, near-nozzle spray region. Shadowgraphy effectively complements the X-ray CT analysis through particle analysis. It also allows for relatively simple spray cone analysis, though it cannot provide quantitative mass distribution analysis.

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Section: Comparison Of Resultsmentioning

confidence: 99%

“…Due to this property, different orientations can result in slightly different results for nozzle symmetry or shape. Shadowgraphy can only help determine asymmetries in the plane normal to the camera's line of sight for single orientations, though 3D reconstruction is possible with multiple views on a spray [11].…”

Section: Introductionmentioning

confidence: 99%

A Comparison of Shadowgraphy and X-Ray Computed Tomography in Liquid Spray Analysis

Lee

Eichner

Tennis

et al. 2014

Volume 7: Fluids Engineering Systems and Technologies

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show abstract

“…The spray is then reconstructed by using a line-of-sight reconstruction technique. Stereoscopic shadowgraphy [38] uses four parabolic mirrors to form two inclined intersecting beams and the object is placed at the intersection. Two cameras synchronized in the masterslave configuration record the shadowgraph pairs automatically.…”

Section: Figure 14 'Focused Shadowgraphy' Setup (Shadowgraph Is Forme...mentioning

confidence: 99%

Imaging Diagnostics for Jet Breakup into Droplets: A Review

Osta¹

2022

Fundamental Research and Application of Droplet Dynamics

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A concise review of the recent developments in some of the standard optical diagnostics applied for primary jet breakup studies has been presented here. Primary breakup is the core breakup of liquid jets and sheets into droplets upon its interaction with the ambient gaseous atmosphere. This phenomenon is encountered in various aerodynamic, fluid dynamic, and combustion situations. The imaging diagnostics reviewed here include photography, high-speed imaging, shadowgraphy, digital holography, ballistic imaging, jet core illumination, thermal imaging, Mie imaging, x-ray phase contrast imaging, and laser-induced fluorescence. The advantages and limitations of each technique, their success, and future developmental trend are discussed.

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“…Using two high-speed cameras at different angles and stereoscopic backlighting, it is possible to reconstruct 3D images from microbubbles. The 3D reconstruction of the bubble bursting process and the measurement of the bursting rims velocity was demonstrated by Wang and Zhang [63]. Voisin et al [64] reconstructed the 3D geometry of Taylor bubbles trapped inside hollow cellulose fibers from 2D shadowgraph images taken with only one camera.…”

Section: Brightfield Microscopy and High-speed Photographymentioning

confidence: 99%

Experimental Techniques for Bubble Dynamics Analysis in Microchannels: A Review

Mohammadi¹,

Sharp

2013

Journal of Fluids Engineering

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Experimental studies employing advanced measurement techniques have played an important role in the advancement of two-phase microfluidic systems. In particular, flow visualization is very helpful in understanding the physics of two-phase phenomenon in microdevices. The objective of this article is to provide a brief but inclusive review of the available methods for studying bubble dynamics in microchannels and to introduce prior studies, which developed these techniques or utilized them for a particular microchannel application. The majority of experimental techniques used for characterizing two-phase flow in microchannels employs high-speed imaging and requires direct optical access to the flow. Such methods include conventional brightfield microscopy, fluorescent microscopy, confocal scanning laser microscopy, and micro particle image velocimetry (micro-PIV). The application of these methods, as well as magnetic resonance imaging (MRI) and some novel techniques employing nonintrusive sensors, to multiphase microfluidic systems is presented in this review.

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High speed stereoscopic shadowgraph imaging and its digital 3D reconstruction

Cited by 19 publications

References 26 publications

A Comparison of Shadowgraphy and X-Ray Computed Tomography in Liquid Spray Analysis

A Comparison of Shadowgraphy and X-Ray Computed Tomography in Liquid Spray Analysis

Imaging Diagnostics for Jet Breakup into Droplets: A Review

Experimental Techniques for Bubble Dynamics Analysis in Microchannels: A Review

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