An Euler–Lagrange model is presented that describes the dynamics of liquid droplets emerging from a high-pressure spray nozzle in a relatively large volume (of the order of almost a cubic meter). In the model, the gas phase is treated as continuum, solved on an Eulerian grid, and the liquid phase is treated as a dispersed phase, solved in a Lagrangian fashion, with interphase coupling through state-of-the-art drag relations obtained from direct numerical simulations. The droplets are introduced into the system at high velocities, leading to a turbulent self-induced gas flow which is solved using large eddy simulation. Despite the relatively low liquid volume fraction in the spray, the number density of droplets at the nozzle is still more t...
\u3cp\u3eIn this work we investigate droplet-droplet collision interactions in a spray system using ...
Large scale simulation models can aid in improving the design of spray dryers. In this work an Euler...
In this paper, we focused on modeling the collision phenomenon between two liquid droplets for appli...
An Euler–Lagrange model is presented that describes the dynamics of liquid droplets emerging from a ...
An Euler–Lagrange model is presented that describes the dynamics of liquid droplets emerging from a ...
An Euler–Lagrange model is presented that describes the dynamics of liquid droplets emerging from a ...
An Euler–Lagrange model is presented that describes the dynamics of liquid droplets emerging from a ...
An Euler–Lagrange model is presented that describes the dynamics of liquid droplets emerging from a ...
A computer code for the dispersed liquid phase is constructed in an Eulerian-Fluid-Lagrangian-Partic...
Large scale simulation models can aid in improving the design of spray dryers. In this work an Euler...
Large scale simulation models can aid in improving the design of spray dryers. In this work an Euler...
ABSTRACT The collisions and coalescence of liquid drops is important in many spraying applications. ...
Large scale simulation models can aid in improving the design of spray dryers. In this work an Euler...
Large scale simulation models can aid in improving the design of spray dryers. In this work an Euler...
Large scale simulation models can aid in improving the design of spray dryers. In this work an Euler...
\u3cp\u3eIn this work we investigate droplet-droplet collision interactions in a spray system using ...
Large scale simulation models can aid in improving the design of spray dryers. In this work an Euler...
In this paper, we focused on modeling the collision phenomenon between two liquid droplets for appli...
An Euler–Lagrange model is presented that describes the dynamics of liquid droplets emerging from a ...
An Euler–Lagrange model is presented that describes the dynamics of liquid droplets emerging from a ...
An Euler–Lagrange model is presented that describes the dynamics of liquid droplets emerging from a ...
An Euler–Lagrange model is presented that describes the dynamics of liquid droplets emerging from a ...
An Euler–Lagrange model is presented that describes the dynamics of liquid droplets emerging from a ...
A computer code for the dispersed liquid phase is constructed in an Eulerian-Fluid-Lagrangian-Partic...
Large scale simulation models can aid in improving the design of spray dryers. In this work an Euler...
Large scale simulation models can aid in improving the design of spray dryers. In this work an Euler...
ABSTRACT The collisions and coalescence of liquid drops is important in many spraying applications. ...
Large scale simulation models can aid in improving the design of spray dryers. In this work an Euler...
Large scale simulation models can aid in improving the design of spray dryers. In this work an Euler...
Large scale simulation models can aid in improving the design of spray dryers. In this work an Euler...
\u3cp\u3eIn this work we investigate droplet-droplet collision interactions in a spray system using ...
Large scale simulation models can aid in improving the design of spray dryers. In this work an Euler...
In this paper, we focused on modeling the collision phenomenon between two liquid droplets for appli...