[EN] A predictive model is proposed to determine the droplet size and velocity distribution at the beginning of the secondary breakup. Liquid bulk is subjected to three stages of atomization including flow inside the injector, primary atomization, and secondary atomization to change a spray. The flow inside pressure swirl injector consisting an axial air core is a strongly complex two phase flow studied by highly precision coupled level set and volume of fluid method (CLSVOF). Subsequently, breakup lengths, interface deformation, as well as the most unstable frequency mode are calculated by nonlinear stability theory applied to emanating liquid sheet. Application of maximum entropy principle (MEP) is the final stage to predict size an...
The droplet size distribution function for sprays is derived using the maximum entropy formalism (ME...
International audienceThe efficiency of any application involving a liquid spray is known to be high...
This paper is focused on the development of a model for predicting the mean drop size in effervescen...
A predictive model is proposed to determine the droplet size and velocity distribution at the beginn...
A predictive model for droplet size and velocity distributions of a pressure swirl atomizer has been...
Droplet size distributions in the cold spray of a fuel are important in observed combustion behavior...
This study discusses the development of a mathematical model that is capable of predicting the drop ...
A new basis for the prediction of the drop size and velocity distribution in a spray is developed, ...
The maximum entropy principle is one of the first methods, which have been used to predict droplet s...
This work reports experimental and numerical study of primary jet breakup of a pressure swirl atomiz...
Pressure-swirl atomizers are often employed to generate a water-mist spray, typically employed in fi...
Disintegration of liquid masses in a free-surface flow is still an open question in the field of sma...
Liquid sprays and droplets play an important role in numerous applications of practical interest inc...
<p>Pressurized metered dose inhalers (pMDI) produce large numbers of droplets with smaller sizes tha...
Liquid atomization using supersonic gas flows is a common process in many industrial applications, o...
The droplet size distribution function for sprays is derived using the maximum entropy formalism (ME...
International audienceThe efficiency of any application involving a liquid spray is known to be high...
This paper is focused on the development of a model for predicting the mean drop size in effervescen...
A predictive model is proposed to determine the droplet size and velocity distribution at the beginn...
A predictive model for droplet size and velocity distributions of a pressure swirl atomizer has been...
Droplet size distributions in the cold spray of a fuel are important in observed combustion behavior...
This study discusses the development of a mathematical model that is capable of predicting the drop ...
A new basis for the prediction of the drop size and velocity distribution in a spray is developed, ...
The maximum entropy principle is one of the first methods, which have been used to predict droplet s...
This work reports experimental and numerical study of primary jet breakup of a pressure swirl atomiz...
Pressure-swirl atomizers are often employed to generate a water-mist spray, typically employed in fi...
Disintegration of liquid masses in a free-surface flow is still an open question in the field of sma...
Liquid sprays and droplets play an important role in numerous applications of practical interest inc...
<p>Pressurized metered dose inhalers (pMDI) produce large numbers of droplets with smaller sizes tha...
Liquid atomization using supersonic gas flows is a common process in many industrial applications, o...
The droplet size distribution function for sprays is derived using the maximum entropy formalism (ME...
International audienceThe efficiency of any application involving a liquid spray is known to be high...
This paper is focused on the development of a model for predicting the mean drop size in effervescen...