Explanation Given: The surface temperature of the cylindrical tip is 400 ° C . The average heat transfer coefficient is 25 W / m 2 ⋅ K . The emissivity ofcylindrical tip is 0.8 . The surrounding temperature is 20 ° C . The diameter of cylindrical tip is 2.5 mm . The length of the cylindrical tip is 20 mm . Concept used: Write the expression for the area of the cylinder tip. A = π D L ...... (1). Here, A is the area of cylindrical tip, D is the diameter cylindrical tip, and L is the length of the cylindrical tip. Write the expression for newton's law of cooling. Q c o n v = h A ( T s − T s u r r ) ....... (2) Here, Q c o n v is the convective heat loss, h is the heat transfer coefficient, T s is the surface temperature of cylindrical tip, T a is the surrounding temperature. Write the expression for radiated power. Q r a d = σ ε A ( T s 4 − T s u r r 4 ) ...... (3) Here, Q r a d is the radiation heat loss, σ is the Stephen Boltzmann's constant, ε is the emissivity. Write the expression for power required to maintain the tip at 400 ° C . Q p o w e r = Q c o n v + Q r a d ...... (4) Here Q p o w e r is power required to maintain the tip at 400 ° C . Calculation: Convert mm into m as, L = 20 ( 1000 ) ( 1000 mm 1 m ) = 0.020 m Convert mm into m as, D = 2.5 ( 1000 ) ( 1000 mm 1 m ) = 0.0025 m Substitute 0.0025 m for D and 0.02 m for L in equation (1). A = π ( 0.0025 ) ( 0.02 ) = 1.57 × 10 ( − 4 ) m 2 Convert ° C into Kelvin

Heat and Mass Transfer: Fundamentals and Applications

5th Edition

ISBN: 9780073398181

Author: Yunus A. Cengel Dr., Afshin J. Ghajar

Publisher: McGraw-Hill Education

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Chapter 1, Problem 141P

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Chapter 1 Solutions

Heat and Mass Transfer: Fundamentals and Applications

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The power required to maintain the tip at 400 ° C .

The power required to maintain the tip at 400°C.

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