(a) Explanation Given: The velocity of air is 5 m / s . The air temperature is 25 ° C . The length of the channel is 25 m . The depth of the channel is 1 m . The relative humidity of the air is 50 % . Concept used: Properties of air from Table A-4: The kinematic viscosity is 15.71 × 10 − 6 m 2 / s . Properties of water from Table A-6: The saturated density is 0.0226 kg / m 3 . The density is 997 kg / m 3 . Properties of water vapor at 298 K from Table A-8: The value of mass diffusivity is 0.26 × 10 − 4 m 2 / s . Write the expression for Reynolds number. Re = u D ν ....... (1) Here, D is diameter, Re is Reynolds number, ν is kinematic viscosity and u is velocity of fluid. Write the expression for Schmidt number. S c = ν D A B ....... (2) Here, Sc is Schmidt number, ν is kinematic viscosity and D A B is mass diffusivity of fluid. Write the expression for Sherwood number. S h = [ ( 0.037 Re 4 5 − 871 ) S c 1 3 ] ....... (3) Here, Sh is Sherwood number, K and G is constant. Write the expression for mass transfer rate. h m = D A B L S h ....... (4) Write the expression for mass evaporation flux. n ″ = h m ( W L ) ( ρ f ) ( 1 − ϕ ) ....... (5) Here, h m is mass transfer rate, ρ f is density, n ″ is evaporation rate and ϕ is relative humidity. Calculation: Substitute 25 m for L, 15.71 × 10 − 6 m 2 / s for ν and 5 m / s for u in equation (1) Re = ( 5 ) ( 25 ) 15.71 × 10 − 6 = 7 (b) To determine The expression for the rate of change of water depth that decrease with time due to evaporation and time taken by water to evaporate.

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ISBN: 9780470917855

Author: Bergman, Theodore L./

Publisher: John Wiley & Sons Inc

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Chapter 7, Problem 7.131P

(a)

To determine

The rate of water loss due to evaporation from the surface.

(b)

To determine

The expression for the rate of change of water depth that decrease with time due to evaporation and time taken by water to evaporate.

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Chapter 7, Problem 7.129P

Chapter 7, Problem 7.132P

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The rate of water loss due to evaporation from the surface.

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The rate of water loss due to evaporation from the surface.

The expression for the rate of change of water depth that decrease with time due to evaporation and time taken by water to evaporate.

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