Engineering
Counterflow
100%
Sintering
100%
Coalescence
100%
Silica Particle
100%
Diffusion Flame
100%
Spherical Particle
80%
Models
60%
Diffusion
60%
Flame Temperature
40%
Hybrid
40%
Two Dimensional
20%
Simplifies
20%
Good Agreement
20%
Cross Sections
20%
Particle Surface
20%
Streamlines
20%
Gas Specie
20%
Stagnation Point
20%
Independent Variable
20%
Convection
20%
Particle Volume
20%
One-Dimensional Flow
20%
Dimensional Flow Field
20%
Flame
20%
Prediction
20%
Obtains
20%
Size Distribution
20%
Collision Cross
20%
Thermophoresis
20%
Earth and Planetary Sciences
Silicon Dioxide
100%
Coagulation
100%
Coalescing
100%
Diffusion Flame
100%
Particle
100%
Growth
100%
Chemical Reaction
100%
Sintering
50%
Model
30%
Datum
30%
Diffusion
20%
Flame Temperature
20%
Volume
20%
Agreement
20%
Hybrid
20%
Aerosol
10%
Hydrogen
10%
Size Distribution
10%
Flow Distribution
10%
Geometry
10%
Convection
10%
Collision
10%
Surface Area
10%
Jet Flow
10%
Oxidation
10%
Hydrolysis
10%
One Dimensional Flow
10%
Stagnation Point
10%
Species
10%
Prediction
10%
Gas
10%
Parameter
10%
Good
10%
Oxygen
10%
Height
10%
Viscous Flow
10%
Thermophoresis
10%
Particle Diffusion
10%
INIS
particles
100%
flames
100%
diffusion
100%
growth
100%
silica
100%
coalescence
100%
chemical reactions
100%
sintering
45%
experimental data
27%
hybrids
18%
volume
18%
flame temperature
18%
dynamics
9%
comparative evaluations
9%
gases
9%
oxygen
9%
aerosols
9%
geometry
9%
distribution
9%
concentration
9%
hydrogen
9%
size
9%
surface area
9%
oxidation
9%
hydrolysis
9%
prediction
9%
one-dimensional calculations
9%
height
9%
collisions
9%
convection
9%
viscous flow
9%
cross sections
9%
stagnation point
9%
thermophoresis
9%
Physics
Silicon Dioxide
100%
Particle
100%
Growth
100%
Chemical Reaction
100%
Sintering
50%
Model
30%
Diffusivity
20%
Flame Temperature
20%
Volume
20%
Hydrogen
10%
Oxidation
10%
Aerosol
10%
Flow Distribution
10%
Collisions
10%
Flames
10%
Hydrolysis
10%
Stagnation Point
10%
One Dimensional Flow
10%
Gaseous State
10%
Thermophoresis
10%
Area
10%
Independent Variables
10%
Geometry
10%
Oxygen
10%
Particle Diffusion
10%
Chemical Engineering
Coagulation
100%
Temperature
66%
Oxygen
33%
Thermophoresis
33%
Viscous Flow
33%
Hydrogen
33%
Oxidation Reaction
33%
Aerosol Dynamics
33%
Material Science
Particle
100%
Silicon Dioxide
100%
Sintering
50%
Temperature
20%
Surface Area
10%
Particle Growth
10%
Gas
10%