Validation of the Lagrangian Approach for Predicting Turbulent Dispersion and Evaporation of Droplets within a Spray

The accuracy of the Lagrangian approach for predicting droplet trajectories and evaporation rates within a simple spray has been addressed. The turbulent dispersion and overall evaporation rates of droplets are modeled reasonably well, although the downstream velocity decay of the larger droplets is underpredicted, which is attributed to a poor estimate of the radial fluctuating velocity of these droplets at the inlet boundary. Qualitative agreement is found between the predicted and experimental evolution of the droplet size distribution downstream of the nozzle. These results show that smaller droplets evaporate preferentially to larger droplets, because they disperse more quickly toward the edge of the jet, where the entrainment of fresh air from the surroundings produces a significant evaporative driving force. Droplet dispersion and evaporation rates are highly influenced by the rate of turbulence generation within the shear layer. This work demonstrates the potential of the Lagrangian approach for analyzing particle trajectories and drying within the more complex spray dryer system.

[1]  R. Antonia,et al.  The Heated Round Jet in a Coflowing Stream , 1976 .

[2]  A. Gosman,et al.  Aspects of Computer Simulation of Liquid-Fueled Combustors , 1983 .

[3]  M. Ruger,et al.  EULER/LAGRANGE CALCULATIONS OF TURBULENT SPRAYS: THE EFFECT OF DROPLET COLLISIONS AND COALESCENCE , 2000 .

[4]  A. Gosman,et al.  Aspects of computer simulation of liquid-fuelled combustors , 1981 .

[5]  J. Williams,et al.  Simulation of the Effects of Inlet Swirl on Gas Flow Patterns in a Pilot-Scale Spray Dryer , 2004 .

[6]  David F. Fletcher,et al.  Numerical Simulations of Gas Flow Patterns Within a Tall-Form Spray Dryer , 2001 .

[7]  B. Launder,et al.  Application of the energy-dissipation model of turbulence to the calculation of flow near a spinning disc , 1974 .

[8]  David F. Fletcher,et al.  Challenges of Simulating Droplet Coalescence within a Spray , 2004 .

[9]  Timothy A. G. Langrish,et al.  An experimental investigation of droplet evaporation and coalescence in a simple jet flow , 2004 .

[10]  A. S. Mujumdar,et al.  Simulation of a Spray Dryer Fitted with a Rotary Disk Atomizer Using a Three-Dimensional Computional Fluid Dynamic Model , 2004 .

[11]  David F. Fletcher,et al.  A Computational Fluid Dynamics Study of a Tall-Form Spray Dryer , 2002 .

[12]  A. P. Watkins,et al.  Simulation of Agglomeration in Spray Drying Installations: The EDECAD Project , 2004 .

[13]  David E. Oakley,et al.  Spray Dryer Modeling in Theory and Practice , 2004 .

[14]  James J. McGuirk,et al.  The Calculation of Three-Dimensional Turbulent Free Jets , 1979 .