7th Edition

ISBN: 9780470501979

Author: Frank P. Incropera, David P. DeWitt, Theodore L. Bergman, Adrienne S. Lavine

Publisher: Wiley, John & Sons, Incorporated

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Textbook Question

Chapter 5, Problem 5.36P

As permanent space stations increase in size. there is an attendant increase in the amount of electrical power they dissipate. To keep station compartment temperatures from exceeding prescribed limits, it is necessary to transfer the dissipated heat to space. A novel heat rejection scheme that has been proposed for thispurpose is termed a Liquid Droplet Radiator (LDR). heat is first transferred to a high vacuum oil. which is then injected into outer space as a stream of small droplets. The stream is allowed to traverse a distance L, over which it cools by radiating energy to outer space at absolute zero temperature. The droplets are then collected and routed back to the space station.
Chapter 5, Problem 5.36P, As permanent space stations increase in size. there is an attendant increase in the amount of
Consider conditions for which droplets of emissivity ε = 0.95 and diameter D = 0.5 mm are injected at a temperature of T i = 500 K and a velocity of V = 0.1 m/s . Properties of the oil are ρ = 885 k g / m 3 , c = 1900 J/kg ⋅ K, and k = 0.145 W/m ⋅ K . Assuming each drop to radiate to deep space at T sur = 0 K, determine the distance L required for the droplets to impact the collector at a final temperature of T f = 300 K . What is the amount of thermal energy rejected by each droplet?

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Chapter 5, Problem 5.35P

Chapter 5, Problem 5.37P

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Chapter 5 Solutions

Fundamentals of Heat and Mass Transfer

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Solution Summary: The author calculates the amount of thermal energy rejected by each droplet by separating variables and integrating.

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Chapter 5 Solutions