TY - JOUR
ID - 780
TI - Study of Conjugate Heat Transfer from Heated Plate by Turbulent Offset Jet in Presence of Freestream Motion using Low-Reynolds Number Modeling
JO - Journal of Applied Fluid Mechanics
JA - JAFM
LA - en
SN - 1735-3572
AU - Kumar Rathore, S.
AD - Department of Mechanical Engineering, National Institute of Technology Rourkela. Rourkela. Odisha. 769008. India
Y1 - 2019
PY - 2019
VL - 12
IS - 2
SP - 617
EP - 630
KW - Conjugate Heat Transfer
KW - Offset jet
KW - Low
KW - Reynolds number model
KW - Freestream motion
KW - Numerical simulation
DO - 10.29252/jafm.12.02.28974
N2 - The present study deals with conjugate heat transfer from a heated ﬂat plate by a turbulent offset jet in presence of freestream motion. The turbulent convection in ﬂuid and conduction in solid is solved in a coupled manner by simultaneously satisfying the equality of temperature and heat ﬂux at the solid-ﬂuid interface. The computations have been carried out using low-Reynolds number (LRN) k −ω SST model in the ﬂuid region. The capability of LRN modeling have enabled to solve the entire boundary layer including the thin viscous sublayer due to which Moffatt vortices (secondary recirculation regions) have been captured near the corner of the wall where the turbulence Reynolds number is low. The bottom surface of solid plate is maintained at a constant temperature higher than the jet inlet temperature whereas the jet inlet temperature is same as that of the ambient. The present investigation reports the effects of offset ratio of jet (OR), Reynolds number of ﬂow (Re), solid to ﬂuid thermal conductivity ratio (K), solid slab thickness (S) and freestream velocity (U∞) on conjugate heat transfer arises due to solid and ﬂuid interaction. The offset ratio is varied in the range OR = 3 − 11, Reynolds number in the range Re = 10000 − 25000, solid to ﬂuid thermal conductivity ratio in the range K = 1 − 2000, solid slab thickness in the range S = 1−20 and freestream velocity in the range U∞ = 0.1 − 0.25. The effects of various parameters on the near-wall velocity proﬁle, solid-ﬂuid interface temperature, local Nusselt number variation along the plate, heat ﬂux variation along the plate, etc. have been discussed in detail.
UR - https://www.jafmonline.net/article_780.html
L1 - https://www.jafmonline.net/article_780_d80720dbb4a255a67af27e0ca168269e.pdf
ER -