Explanation Given: The inner diameter ( d i ) of the tube is 10 mm . The outer diameter ( d o ) of the tube is 100 mm . The temperature ( T a ) of air at which it enters is 20 °C . The temperature ( T e ) of air at which it exit is 80 °C . The mass flow rate ( m ˙ ) of water is 0.7 kg / s . The tube surface temperature ( T s ) is 120 °C . Calculation: Calculate the bulk mean temperature by using the relation. T b = ( T a + T e ) 2 = ( 20 °C + 80 °C ) 2 = 50 °C Refer Table A-22 “Properties of Water at 1 atm” to obtain the properties of air as: μ = 0.547 × 10 − 3 Kg / m ⋅ s Pr = 3.55 k = 0.644 W / m ⋅ K c p = 4181 J / kg ⋅ K Calculate the Reynolds number by using the relation. Re = ρ V avg ( d 0 − d i ) μ = m ˙ ( d o − d i ) π 4 [ ( d o ) 2 − ( d i ) 2 ] μ = 4 m ˙ ( d o − d i ) π [ ( d o − d i ) ( d o + d i ) ] μ = 4 ( 0.7 kg / s ) π ( 100 mm × 1 m 1000 mm + 10 mm × 1 m 1000 mm ) ( 0

5th Edition

ISBN: 9780078027680

Author: Yunus A. Cengel Dr., Robert H. Turner, John M. Cimbala

Publisher: McGraw-Hill Education

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Chapter 19, Problem 106P

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The length of the concentric annulus tube.

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Chapter 19, Problem 105P

Chapter 19, Problem 107RQ

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Chapter 19 Solutions

Fundamentals of Thermal-Fluid Sciences

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