Engineering and Tech / Introduction to Chemical Engineering Thermodynamics 8 / Chapter 10 / Problem 10.37

Introduction to Chemical Engineering Thermodynamics | 8th Edition | ISBN: 9781259696527 | Authors: J.M. Smith, Hendrick Van Ness, Michael Abbott, Mark Swihart

?Two (2) \(\mathrm{kmol} \cdot \mathrm{hr}^{-1}\) of liquid n-octane (species 1) are

Chapter 10, Problem 10.37

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Two (2) \(\mathrm{kmol} \cdot \mathrm{hr}^{-1}\) of liquid n-octane (species 1) are continuously mixed with 4 \(\mathrm{kmol} \cdot \mathrm{hr}^{-1}\) of liquid iso-octane (species 2). The mixing process occurs at constant T and P; mechanical power requirements are negligible.

(a) Use an energy balance to determine the rate of heat transfer.

(b) Use an entropy balance to determine the rate of entropy generation \(\left(\mathrm{W} \cdot \mathrm{K}^{-1}\right)\).

State and justify all assumptions.

Text Transcription:

kmol cdot hr^-1

(W cdot K^-1)

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