Explanation Given: The diameter of rod ( d ) is 15 cm . The length of rod ( l ) is 15 cm . The temperature of air ( T ∞ ) is 15 ° C . The temperature of water at inlet ( T 1 ) is 80 ° C . The temperature of water at exit ( T 2 ) is 70 ° C . The rate of water flow ( m ) is 8.5 kg / s . Calculation: Calculate the average temperature ( T a ) using the relation. T a = T 1 + T 2 2 = 70 ° C + 80 ° C 2 = 75 ° C Calculate the film temperature ( T f ) using the relation. T f = T a + T ∞ 2 = 75 ° C + 15 ° C 2 = 45 ° C Refer Table A-22 “Properties of air at 1 atm pressure”. Obtain the following properties of air corresponding to the temperature of 45 ° C as follows: k = 0.02699 W / m ⋅ K v = 1.75 × 10 − 5 m 2 / s Pr = 0.7241 Calculate the rate of heat transfer from the pipe ( Q ) using the relation. Q = m c p Δ T = m c p ( T 1 − T 2 ) = ( 8.5 kg / s ) ( 4193 J / kg ⋅ K ) ( ( 80 ° C + 273 ) K − ( 70 ° C + 273 ) K ) = 356400 W Calculate the heat transfer coefficient ( h ) using the relation. h = Q π d l ( T a − T ∞ ) = 356400 W π ( 15 cm × 1 m 100 cm ) ( 400 m ) ( ( 75 ° C + 273 ) K − ( 15 ° C + 273 ) K ) = 31

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The average wind velocity in km / h .

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