Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid.

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Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Comparison of measured and predicted liquid penetration for the nonevaporating spray case. Seven predicted curves are presented for the cell sizes given in Table 4. Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Comparison of spray centerline (a) velocity, (b) turbulent kinetic energy, and (c) turbulent viscosity for a range of mesh resolutions. The results are given for a time of 0.5 ms. Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Comparison of maximum (a) velocity, (b) turbulent kinetic energy, and (c) turbulent viscosity for a range of embed scales. Note that an embed scale of 1 gives a cell size of 1.0 mm while an embed scale of 6 gives a cell size of mm. The results are given for a time of 0.5 ms. Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Comparison of spray centerline turbulent length-scales for a range of mesh resolutions. The results are given for a time of 0.5 ms. Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Comparison of computational mesh (left), side view of the spray (middle), and axial view of the spray (right) for velocity AMR cell sizes of (a) 1.0 mm, (b) 0.5 mm, (c) 0.25 mm, (d) mm, (e) mm, and (f) mm. The results are given for a time of 0.5 ms. Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Comparison of liquid volume fraction as a function of axial location for a range of mesh resolutions. The results are given for a time of 0.5 ms. Note that the nozzle exit is at an axial location of 1 mm. Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Comparison of measured and predicted liquid penetration for the spray A evaporating spray case. Seven predicted curves are presented for the cell sizes given in Table 4. Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Comparison of measured and predicted liquid length for the spray A evaporating spray case. The predictions are shown for a range of embed scales. Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Comparison of measured and predicted vapor penetration for the spray A evaporating spray case. Seven predicted curves are presented for the cell sizes given in Table 4. Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Comparison of spray centerline vapor mass fraction for a range of mesh resolutions. The results are given for a time of 1.5 ms. Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Influence of mesh size on ignition delay at different ambient oxygen concentrations, compared with Sandia measurements for an ambient density of 14.8 kg/m 3 and a temperature of 1000 K Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Influence of mesh size on flame lift-off length at different ambient oxygen concentrations, compared with Sandia measurements for an ambient density of 14.8 kg/m 3 and a temperature of 1000 K Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Influence of mesh size on axial location of ignition at different ambient oxygen concentrations for an ambient density of 14.8 kg/m 3 and a temperature of 1000 K Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Influence of mesh size on liquid length at different ambient oxygen concentrations for an ambient density of 14.8 kg/m 3 and a temperature of 1000 K Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Comparison of temperature (left), OH mass fraction (middle), and equivalence ratio (right) for velocity AMR cell sizes of (a) 1.0 mm, (b) 0.5 mm, (c) 0.25 mm, and (d) mm. The results are given for an oxygen concentration of 21% at 1.5 ms after the start of injection. Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Grid-Convergent Spray Models for Internal Combustion Engine Computational Fluid Dynamics Simulations J. Energy Resour. Technol. 2013;136(1): doi: / Wall-clock time as a function of embed scale for the vaporizing and reacting spray cases Figure Legend: