Given information page Material properties Density Heat Thermal Dynamic conductivity | Viscosity (N•s/ m²) 2.30×10* 3.06 ×10 3.70×10 4.24 x105 Prandtl Emissivity (kg/m³) | capacity (J/kg-K) 1014...

Extracted text: Given information page Material properties Density Heat Thermal Dynamic conductivity | Viscosity (N•s/ m²) 2.30×10* 3.06 ×10 3.70×10 4.24 x105 Prandtl Emissivity (kg/m³) | capacity (J/kg-K) 1014 number (W/m-K) 0.871 0.69 Air (at ~400 K) Air (at ~600 K) 0.0338 0.580 1051 0.047 0.69 1099 Air (at ~800 K) Air (at ~1000 K) 0.435 0.0573 0.71 0.348 1141 0.0667 0.73 Milk 1030 3860 water 1000 4187 0.613 8.57 ×104 5.83 Some conversions 1 W = 1 J/s 1 N = 1 kg· m/ s² 1 m = 1000 L General constants Stefan-Boltzmann constant :o = 5.670×10* W/m²·K* Correlations Churchill-Bernstein correlation: Forced convection past a cylinder in cross flow 1/2 0.62 Re2 Pr/3 Rep Nup = 0.3 + [1+ 282000, (0.4\3, [1 + ()*1/4 Tsurface+T∞ Evaluate all properties at the film temperature Tf 2 Forced external convection, laminar flow Nux = 0.664 Re,2 Pr1/3 Forced external convection, turbulent flow 4/5 Nux = 0.036 Re Pr1/3


Extracted text: A flat plate of width 1 m and length 0.2 m is maintained at a temperature of 32 °C. Water at 22 °C flows across the top of the plate in parallel flow (see diagram below). Determine (a) the average convection heat transfer coefficient, and (b) the convection heat transfer rate from the top of the plate when water has a flow rate of 0.5 m/s. Assume steady-state, and find water properties in the "Given information page". Water w = 1 m L= 0.2 m