Thermal Gradient Determination Inside Vaporizing Droplets by Combining Rainbow and Laser Induced Fluorescence Measurements

Abstract: This paper describes the setting of two measuring techniques on a rectilinear monosized droplets stream allowing the validation of droplet vaporizing models for internal spatial temperature distribution. Indeed, the vaporizing rate depends strongly on droplet surface temperature and consequently on physical phenomena inside droplets. However, the measurement of temperature in small droplets whose diameter is about 100μm is not easy. To determine the thermal gradient, two experimental techniques have to be coup… Show more

“…The combination of SRR with another temperature measurement technique is thus of particular interest as it can provide additional information about the temperature distribution within the droplet. Laurent et al (2006) measured the temperature of evaporating droplets using both SRR and the two-color laser-induced fluorescence technique described in Sect. 3.3.…”

Temperature and chemical composition of droplets by optical measurement techniques: a state-of-the-art review

“…The combination of SRR with another temperature measurement technique is thus of particular interest as it can provide additional information about the temperature distribution within the droplet. Laurent et al (2006) measured the temperature of evaporating droplets using both SRR and the two-color laser-induced fluorescence technique described in Sect. 3.3.…”

Temperature and chemical composition of droplets by optical measurement techniques: a state-of-the-art review

A liquid–vapor interface positioning method applied to PLIF measurements around evaporating monodisperse droplet streams

Evaluation of refractive index gradients in droplets by rainbow technique: application to CO$$_2$$ capture by monoethanolamine aqueous spray