Answer:
(a) The radiosity, J, of the plate surface is 1343.2 W/m²
(b) The net radiation heat flux at the top surface is 1863.2 W/m²
Step-by-step explanation:
J = εσT⁴ + (1 - ε)G
where;
J is the radiosity of the plate surface
ε is the emissivity
σ is the stefan-Boltzmann constant
T is the temperature of the surface
G is the irradiance of the surface
J = 0.76 x 5.67 x 10⁻⁸ x (400)⁴ + (1 - 0.76) x 1000
J = 1343.2 W/m²
Part (b) net radiation heat flux at the top surface
this is equivalent to sum of reflected and emitted heat.
Rnet = G - (Rσ + Rt) + Rε
Rnet = G + Rε - (Rσ + Rt)
Rnet = G + εσT⁴ - (1 - ε)G
Rnet = 1000 + 1103.2 - 240
Rnet = 1863.2 W/m²
Therefore, the net radiation heat flux at the top surface is 1863.2 W/m²