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17 October, 12:41

Water at 120oC boils inside a channel with a flat surface measuring 45 cm x 45 cm. Air at 62 m/s and 20oC flows over the channel parallel to the surface. Determine the heat transfer rate to the air. Neglect wall thermal resistance.

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  1. 17 October, 13:00
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    Q = 2.532 x 10³ W

    Explanation:

    The properties of air at the film temperature of

    T (f) = (T (s) + T () ∞) / 2

    T (f) = (120 + 20) / 2 = 70 °C

    From the table of properties of air at T = 20 °C we know that ρ = 1.028 kg/m³, k = 0.02881W/mK, Pr = 0.7177, v = 1.995 x 10⁻⁵ m²/s

    Calculate the Reynold's Number

    Re (l) = V x L/ν, where V is the speed of air flowing, L is the length of the surface in meters and ν is the kinematic viscosity

    Re (l) = 62 x 0.45 / (1.995 x 10⁻⁵) = 1.398 x 10⁶

    Re (l) is greater than the critical Reynold Number. Thus, we have combined laminar and turbulent flow and the average Nusselt number for the entire plate is determined by

    Nu = (0.037 x (Re (l) ^0.8) - 871) x Pr^1/3, where Pr is the Prandtl's Number

    Nu = (0.037 x (1.398 x 10⁶) ^0.8) - 871) x (0.7177) ^1/3

    Nu = 1952.85

    We also know that

    Nu = h x L/k, where h is the heat transfer coefficient, L is the length of the surface and k is the thermal conductivity

    Rearranging to solve for h

    h = (Nu x k) / l

    h = 1952.85 x 0.02881/0.45 = 125.03 W/m²C

    The heat transfer rate Q, may be determined by

    Q = h x A x (T (s) - T (∞))

    Q = 125.03 x 0.45 x 0.45 x (120 - 20)

    Q = 2.532 x 10³ W

    The heat transfer rate is 2.532 x 10³ W to the air.
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