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Title: High-speed (20 kHz) digital in-line holography for transient particle tracking and sizing in multiphase flows

Abstract

High-speed (20 kHz) digital in-line holography (DIH) is applied for 3D quantification of the size and velocity of fragments formed from the impact of a single water drop onto a thin film of water and burning aluminum particles from the combustion of a solid rocket propellant. To address the depth-of-focus problem in DIH, a regression-based multiframe tracking algorithm is employed, and out-of-plane experimental displacement accuracy is shown to be improved by an order-of-magnitude. Comparison of the results with previous DIH measurements using low-speed recording shows improved positional accuracy with the added advantage of detailed resolution of transient dynamics from single experimental realizations. Furthermore, the method is shown to be particularly advantageous for quantification of particle mass flow rates. For the investigated particle fields, the mass flows rates, which have been automatically measured from single experimental realizations, are found to be within 8% of the expected values.

Authors:
 [1];  [1];  [2]
  1. Sandia National Lab. (SNL-NM), Albuquerque, NM (United States)
  2. Purdue Univ., West Lafayette, IN (United States)
Publication Date:
Research Org.:
Sandia National Lab. (SNL-NM), Albuquerque, NM (United States)
Sponsoring Org.:
USDOE National Nuclear Security Administration (NNSA)
OSTI Identifier:
1258446
Alternate Identifier(s):
OSTI ID: 1245330
Report Number(s):
SAND-2016-1953J
Journal ID: ISSN 0003-6935; APOPAI; 642134
Grant/Contract Number:  
AC04-94AL85000
Resource Type:
Journal Article: Accepted Manuscript
Journal Name:
Applied Optics
Additional Journal Information:
Journal Volume: 55; Journal Issue: 11; Journal ID: ISSN 0003-6935
Publisher:
Optical Society of America (OSA)
Country of Publication:
United States
Language:
English
Subject:
72 PHYSICS OF ELEMENTARY PARTICLES AND FIELDS; digital holography; three-dimensional image processing; instrumentation, measurement, and metrology

Citation Formats

Guildenbecher, Daniel R., Cooper, Marcia A., and Sojka, Paul E. High-speed (20 kHz) digital in-line holography for transient particle tracking and sizing in multiphase flows. United States: N. p., 2016. Web. doi:10.1364/AO.55.002892.
Guildenbecher, Daniel R., Cooper, Marcia A., & Sojka, Paul E. High-speed (20 kHz) digital in-line holography for transient particle tracking and sizing in multiphase flows. United States. https://doi.org/10.1364/AO.55.002892
Guildenbecher, Daniel R., Cooper, Marcia A., and Sojka, Paul E. 2016. "High-speed (20 kHz) digital in-line holography for transient particle tracking and sizing in multiphase flows". United States. https://doi.org/10.1364/AO.55.002892. https://www.osti.gov/servlets/purl/1258446.
@article{osti_1258446,
title = {High-speed (20 kHz) digital in-line holography for transient particle tracking and sizing in multiphase flows},
author = {Guildenbecher, Daniel R. and Cooper, Marcia A. and Sojka, Paul E.},
abstractNote = {High-speed (20 kHz) digital in-line holography (DIH) is applied for 3D quantification of the size and velocity of fragments formed from the impact of a single water drop onto a thin film of water and burning aluminum particles from the combustion of a solid rocket propellant. To address the depth-of-focus problem in DIH, a regression-based multiframe tracking algorithm is employed, and out-of-plane experimental displacement accuracy is shown to be improved by an order-of-magnitude. Comparison of the results with previous DIH measurements using low-speed recording shows improved positional accuracy with the added advantage of detailed resolution of transient dynamics from single experimental realizations. Furthermore, the method is shown to be particularly advantageous for quantification of particle mass flow rates. For the investigated particle fields, the mass flows rates, which have been automatically measured from single experimental realizations, are found to be within 8% of the expected values.},
doi = {10.1364/AO.55.002892},
url = {https://www.osti.gov/biblio/1258446}, journal = {Applied Optics},
issn = {0003-6935},
number = 11,
volume = 55,
place = {United States},
year = {2016},
month = {4}
}

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Cited by: 2 works
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Works referenced in this record:

Trajectory and velocity measurement of a particle in spray by digital holography
journal, January 2009


Holographic analysis of three-dimensional inertial migration of spherical particles in micro-scale pipe flow
journal, March 2010


Inverse-problem approach for particle digital holography: accurate location based on local optimization
journal, January 2007


Impact of a drop onto a wetted wall: description of crown formation and propagation
journal, November 2002


Quantitative, three-dimensional imaging of aluminum drop combustion in solid propellant plumes via digital in-line holography
journal, January 2014


Applications of Holography in Fluid Mechanics and Particle Dynamics
journal, January 2010


Holographic particle image velocimetry: from film to digital recording
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Production of secondary drops during the single water drop impact onto a plane water surface
journal, October 2006


A multi-frame particle tracking algorithm robust against input noise
journal, August 2008


Uncertainty characterization of particle depth measurement using digital in-line holography and the hybrid method
journal, January 2013


Refinement of particle detection by the hybrid method in digital in-line holography
journal, January 2014


Three-dimensional volumetric measurement of red blood cell motion using digital holographic microscopy
journal, January 2009


The role of time in single drop splash on thin film
journal, June 2004


Ultra-high-speed tomographic digital holographic velocimetry in supersonic particle-laden jet flows
journal, December 2012


Measurements of 3D flow in a micro-pipe via micro digital holographic particle tracking velocimetry
journal, June 2006


Lagrangian particle tracking in three dimensions via single-camera in-line digital holography
journal, December 2008


Real-time digital holographic microscopy using the graphic processing unit
journal, January 2008


Quantitative, three-dimensional diagnostics of multiphase drop fragmentation via digital in-line holography
journal, January 2013


Digital in-line holography to quantify secondary droplets from the impact of a single drop on a thin film
journal, March 2014


Quantitative, three-dimensional imaging of aluminum drop combustion in solid propellant plumes via digital in-line holography
journal, January 2014


Quantitative, three-dimensional diagnostics of multiphase drop fragmentation via digital in-line holography
journal, January 2013


Three-dimensional volumetric measurement of red blood cell motion using digital holographic microscopy
journal, January 2009


Trajectory and velocity measurement of a particle in spray by digital holography
journal, January 2009


Inverse-problem approach for particle digital holography: accurate location based on local optimization
journal, January 2007


Real-time digital holographic microscopy using the graphic processing unit
journal, January 2008


Uncertainty characterization of particle depth measurement using digital in-line holography and the hybrid method
journal, January 2013


Refinement of particle detection by the hybrid method in digital in-line holography
journal, January 2014


Impact of a drop onto a wetted wall: description of crown formation and propagation
journal, November 2002


Works referencing / citing this record:

An Intelligent Vision Based Sensing Approach for Spraying Droplets Deposition Detection
journal, February 2019


Agglomerate Sizing in Aluminized Propellants Using Digital Inline Holography and Traditional Diagnostics
journal, July 2018


Improving the spatial dynamic range of digital inline particle holography
journal, December 2018


Aerodynamic Breakup and Secondary Drop Formation for a Liquid Metal Column in a Shock-Induced Cross-Flow
conference, January 2017


Ultra-high-speed Pulse-burst Phase Conjugate Digital In-line Holography for Imaging Through Shock-wave Distortions
conference, January 2019