Éric Rondet scite author profile

Liquid atomization is a largely widespread unit operation. The disintegration of a liquid into droplets depends on the nature of the nozzle, on the process parameters as well as physicochemical characteristics of the fluid. The aim of this work is to study the contribution of the process (liquid outlet speed and air pressure) and physicochemical (viscosity and surface tension) factors on the size distribution of droplets generated by single- and two-fluid flat spray nozzles. The obtained droplet median diameters which range between 77 and 594 mu m for the single-fluid nozzle and between 11 and 599 mu m for the two-fluid nozzle, are discussed in relation with operating conditions of atomization process. Dimensional analysis was performed as a modeling approach. Despite energy input for the droplet formation is known to be influenced by different origins according to single and two-fluid nozzles, it is shown that a unique correlation, with specific values of parameters for each nozzle type, gathers all the parameters affecting droplet size. In the range of process and formulation parameters tested, this correlation is validated and gives satisfactory agreement for the single- and two-fluid nozzles

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Food powders engineering, between knowhow and science: Constraints, stakes and opportunities

Cuq

2011

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Development of a Novel Integrated Approach to Monitor Processing of Cassava Roots into Gari: Macroscopic and Microscopic Scales

Escobar

Dahdouh

Rondet

et al. 2018

Food Bioprocess Technol

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Microstructure analysis of crust during deep-fat or hot-air frying to understand French fry texture

Gouyo

Rondet²,

Mestres³

et al. 2021

Journal of Food Engineering

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Éric Rondet

Liquids' atomization with two different nozzles: Modeling of the effects of some processing and formulation conditions by dimensional analysis

Food powders engineering, between knowhow and science: Constraints, stakes and opportunities

Development of a Novel Integrated Approach to Monitor Processing of Cassava Roots into Gari: Macroscopic and Microscopic Scales

Microstructure analysis of crust during deep-fat or hot-air frying to understand French fry texture

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