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Heat transfer in the stagnation region of an excited plane impinging jet
J. Sakakibara, K. Hishida
Department of System Design Engineering
Research output
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Contribution to journal
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Article
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peer-review
2
Citations (Scopus)
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Physics & Astronomy
stagnation point
100%
heat transfer
65%
vortices
61%
heat flux
56%
Reynolds stress
46%
excitation
40%
counters
36%
thermal boundary layer
27%
boundary layer thickness
26%
heat transfer coefficients
22%
Nusselt number
22%
laser induced fluorescence
21%
vorticity
20%
nozzles
19%
flow distribution
17%
temperature distribution
16%
velocity distribution
16%
turbulence
15%
causes
12%
fluids
12%
temperature
6%
Engineering & Materials Science
Vortex flow
72%
Heat flux
56%
Heat transfer
55%
Fluorescence
24%
Vorticity
23%
Velocity measurement
21%
Nusselt number
21%
Boundary layers
19%
Heat transfer coefficients
19%
Turbulence
18%
Nozzles
18%
Flow fields
17%
Temperature distribution
17%
Lasers
15%
Fluids
13%
Hot Temperature
10%
Temperature
8%