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A new multicomponent diffusion formulation for the finite-volume method: Application to convective droplet combustion
Daniel N. Pope, George Gogos
Mechanical & Industrial Engineering
Research output
:
Contribution to journal
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Article
›
peer-review
23
Scopus citations
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Dive into the research topics of 'A new multicomponent diffusion formulation for the finite-volume method: Application to convective droplet combustion'. Together they form a unique fingerprint.
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Mathematics
Droplet
100%
Combustion
91%
Finite Volume Method
83%
Formulation
48%
Thermal Diffusion
28%
Drag Coefficient
28%
Forced Convection
28%
Evaporation
27%
Flame
24%
Extinction
19%
Diffusion Coefficient
18%
Minor
17%
Binary
14%
Engineering & Materials Science
Finite volume method
84%
Thermal diffusion
52%
Heptane
48%
Forced convection
43%
Drag coefficient
42%
Evaporation
38%
Numerical models
31%
Temperature
15%
Physics & Astronomy
finite volume method
90%
formulations
52%
fuel combustion
29%
flame temperature
24%
drag coefficients
23%
forced convection
23%
heptanes
23%
thermal diffusion
21%
extinction
16%
diffusion coefficient
15%
evaporation
14%
causes
11%