To determine The length of the tube required. Explanation Given: Temperature of steam is 100 ° F . Thermal conductivity of the pipe is 223 Btu / h ⋅ ft ⋅ ° F . Inner diameter of the pipe is 0.4 in . Outer diameter of the pipe is 0 .6 in . Temperature of the cooling water is 70 ° F . The heat of vaporization of water at 100 ° F is 1037 Btu / lbm . The heat transfer coefficient on the steam side is 1500 Btu / h ⋅ ft 2 ⋅ ° F . The heat transfer coefficient on the water side is 35 Btu / h ⋅ ft 2 ⋅ ° F . Rate of condensation of water is 120 lbm / h . Thickness of the mineral deposit is 0.01 in. Thermal conductivity of the deposit is 0.5 Btu / h ⋅ ft ⋅ ° F . Calculation: The total thermal resistance is, R t o t a l = R i + R p i p e + R d e p o s i t + R o = 1 h i A i + ln ( D 2 / D 1 ) 2 π k 1 L + ln ( D 1 / D d e p o s i t ) 2 π k 2 L + 1 h o A o = 1 ( 35 Btu / h ⋅ ft 2 ⋅ ° F ) ( π × 0.38 12 ft × 1 ft ) + ln ( 3 2 ) 2 π ( 223 Btu / h ⋅ ft ⋅ ° F ) ( 1 ft ) + ln ( 2 1

5th Edition

ISBN: 9780078027680

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

Publisher: McGraw-Hill Education

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Chapter 17, Problem 73P

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Chapter 17, Problem 72P

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Chapter 17 Solutions

Fundamentals of Thermal-Fluid Sciences

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