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Effect of chemical reactions on decaying isotropic turbulence
M. Pino Martín,
Graham V Candler
Aerospace Engineering and Mechanics
Research output
:
Contribution to journal
›
Article
›
peer-review
53
Scopus citations
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Dive into the research topics of 'Effect of chemical reactions on decaying isotropic turbulence'. Together they form a unique fingerprint.
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Physics & Astronomy
isotropic turbulence
88%
chemical reactions
64%
endothermic reactions
21%
temperature
21%
hypersonic boundary layer
20%
turbulent combustion
19%
heat
18%
hypersonic flow
18%
positive feedback
18%
exothermic reactions
18%
products
18%
boundary layer flow
16%
Reynolds stress
15%
budgets
15%
turbulent boundary layer
15%
direct numerical simulation
14%
Mach number
13%
reaction kinetics
12%
kinetic energy
11%
turbulence
10%
expansion
8%
decay
8%
interactions
5%
Mathematics
Chemical Reaction
81%
Turbulence
79%
Fluctuations
40%
Heat
27%
Turbulent Combustion
24%
Reynolds Stress
23%
Turbulent Boundary Layer
22%
Hypersonic Flow
21%
Positive Feedback
20%
Direct numerical Simulation
20%
Reaction Rate
18%
Boundary Layer Flow
17%
Turbulent Flow
17%
Compression
14%
Damped
14%
Decay
11%
Interaction
10%
Term
7%
Engineering & Materials Science
Chemical reactions
70%
Turbulence
64%
Feedback
35%
Temperature
28%
Exothermic reactions
19%
Hypersonic flow
19%
Direct numerical simulation
18%
Boundary layer flow
17%
Hypersonic aerodynamics
16%
Reaction rates
16%
Kinetic energy
15%
Hot Temperature
13%
Chemical Compounds
Turbulence
100%
Flow
45%
Formation of Product
44%
Mach Number
32%
Heat
26%
Exothermic Reaction
21%
Kinetic Energy
20%
Strength
11%
Simulation
11%
Pressure
10%