A circular metal disk having a diameter of 0.4 m is placed firmly against the ground in a barren horizontal region where the earth is at a temperature of 280 K. The effective sky temperature is also 280 K.
The disk is exposed to quiescent ambient air at 300 K and direct solar irradiation of 745 W/m2. The surface of the disk is diffuse with sA = 0.9 for 0 A 1 µ,m and sA = 0.2 for A > 1 µ,m. After some time has elapsed, the disk achieves a uniform, steady-state temperature. The thermal conductivity of the soil is 0.52 W/m · K.
(a) Determine the fraction of the incident solar irradiation that is absorbed.
(b) What is the emissivity of the disk surface?
(c) For a steady-state disk temperature of 340 K, employ a suitable correlation to determine the average free convection heat transfer coefficient at the upper surface of the disk.
(d) Show that a disk temperature of 340 K does indeed yield a steady-state condition for the disk.