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W. Ranz (1952)
Evaporation from dropsChemical Engineering Progress, 48
D. Spalding (1953)
The combustion of liquid fuels, 4
J. Madsen, T. Solberg (2003)
Measurement of Droplet Size and Velocity Distribution in Sprays Using Interferometric Particle Imaging (IPI) and Particle Tracking Velocimetry (PTV)
P Lemaitre, E Porcheron, G Grehan, L Bouilloux (2006)
Development of the global rainbow refractometry to measure spray droplets temperature in a large containment vesselMST, 17
WA Sirignano (1993)
Fluid dynamics of spraysJ Fluids Eng, 115
P. Lemaître (2004)
Développement et application de la réfractométrie arc-en-ciel global pour l'étude des transferts massique et thermique dans un spray
H. Albrecht, M. Borys, N. Damaschke, C. Tropea (2003)
Light Scattering from Small Particles
J. Beeck, D. Giannoulis, L. Zimmer, M. Riethmuller (1999)
Global rainbow thermometry for droplet-temperature measurement.Optics letters, 24 23
A. Glover, S. Skippon, R. Boyle (1995)
Interferometric laser imaging for droplet sizing: a method for droplet-size measurement in sparse spray systems.Applied optics, 34 36
M. Hendou (1992)
Contribution à la modélisation des tranferts simultanés lors de l'absorption de gaz tracés par une pulvérisation : application à la dépollution atmosphérique
AH Lefebvre (1989)
Atomization and sprays
W. Sirignano (1993)
Fluid Dynamics of Sprays—1992 Freeman Scholar LectureJournal of Fluids Engineering-transactions of The Asme, 115
K. Fischer (2002)
SCALING OF CONTAINMENT EXPERIMENTS (SCACEX)
MA Comer, PJ Bowen, SM Sapsford, CJ Bates (2001)
Critical appraisal of current laser diagnostics techniques for G-Di sprays kinematic quantificationOpt Diagn Eng, 5
T. Kawaguchi, Y. Akasaka, M. Maeda (2002)
Size measurements of droplets and bubbles by advanced interferometric laser imaging techniqueMeasurement Science and Technology, 13
P. Lemaître, E. Porcheron, G. Grehan, L. Bouilloux (2006)
Development of a global rainbow refractometry technique to measure the temperature of spray droplets in a large containment vesselMeasurement Science and Technology, 17
R. Frost (2004)
International Organization for Standardization (ISO)Quality Assurance Journal, 8
J. Beeck, M. Riethmuller (1995)
Nonintrusive measurements of temperature and size of single falling raindrops: erratum.Applied optics, 34 31
W. Ranz (1952)
Evaporation from drops : Part IIChemical Engineering Progress, 48
During the course of a hypothetical accident in a nuclear power plant, spraying might be actuated to reduce static pressure in the containment. To acquire a better understanding of the heat and mass transfers between a spray and the surrounding confined gas, non-intrusive optical measurements have to be carried out simultaneously on both phases. The coupling of global rainbow refractometry with out-of-focus imaging and spontaneous Raman scattering spectroscopy allows us to calculate the local Spalding parameter B M, which is useful in describing heat transfer associated with two-phase flow.
Experiments in Fluids – Springer Journals
Published: Jun 13, 2008
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