Explanation Given information: The thermal conductivity of the heater 20 W / m ⋅ K , the diameter of the cylinder is 4 mm , the length of the cylinder is 0.9 m , the temperature of the resistance wire is 110 ° C and the heat transfer rate is 2 kW . Write the expression for the volume of the cylinder. V = π 4 D 2 L Here, the length of the cylinder is L and the diameter of the cylinder is D . Write the expression for the heat generation per unit volume in the cylinder. q ˙ = Q ˙ V ...... (I) Here, the heat transfer rate is Q ˙ . Substitute π 4 D 2 L for V in Equation (I). q ˙ = Q ˙ π 4 D 2 L ...... (II) Write the expression for the temperature at the center of the wire. T r = T s + q ˙ 4 k ( R 2 − r 2 ) ...... (III) Here, the thermal conductivity of the heater is k , the temperature of the resistance wire is T s , the radius of the cylinder is R and the radius of wire is r . Write the expression for the radius of the cylinder. R = D 2 ...... (IV) Here, the diameter of the cylinder is D . Calculation: Convert the temperature from degree Celsius to Kelvin. T K = ( 273 + T ° C ) K T s K = ( 273 + 110 ° C ) K T s = 383 K Substitute 4 mm for D in Equation (IV). R = 4 mm 2 = 2 mm Substitute 4 mm for D , 0.9 m for L and 2 kW for Q ˙ in Equation (II). q ˙ = 2 kW π 4 ( 4 mm ) 2 ( 0.9 m ) = 2 kW ( 10 3 W 1 kW ) π 4 ( 4 mm ( 1 m 10 3 mm ) ) 2 ( 0

6th Edition

ISBN: 9781260913217

Author: CENGEL

Publisher: INTER MCG

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Chapter 2, Problem 96P

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The temperature at the center of the wire.

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Chapter 2, Problem 95EP

Chapter 2, Problem 97P

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Chapter 2 Solutions

HEAT+MASS TRANSFER-EBOOK >I<

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