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An ideal vapor compression refrigeration cycle with R-134a

Thermodynamics: An Engineering Approach | 8th Edition | ISBN:  9780073398174 | Authors: Yunus A. Cengel, Michael A. Boles ISBN: 9780073398174 56

Solution for problem 133P Chapter 11

Thermodynamics: An Engineering Approach | 8th Edition

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Thermodynamics: An Engineering Approach | 8th Edition | ISBN:  9780073398174 | Authors: Yunus A. Cengel, Michael A. Boles

Thermodynamics: An Engineering Approach | 8th Edition

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Problem 133P

An ideal vapor compression refrigeration cycle with R-134a as the working fluid operates between the pressure limits of 120 kPa and 700 kPa. The mass fraction of the refrigerant that is in the liquid phase at the inlet of the evaporator is

(a) 0.69

(b) 0.63

(c) 0.58

(d) 0.43

(e) 0.35

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Chapter 11, Problem 133P is Solved
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Textbook: Thermodynamics: An Engineering Approach
Edition: 8
Author: Yunus A. Cengel, Michael A. Boles
ISBN: 9780073398174

Since the solution to 133P from 11 chapter was answered, more than 260 students have viewed the full step-by-step answer. This textbook survival guide was created for the textbook: Thermodynamics: An Engineering Approach , edition: 8. The full step-by-step solution to problem: 133P from chapter: 11 was answered by , our top Engineering and Tech solution expert on 08/01/17, 09:10AM. Thermodynamics: An Engineering Approach was written by and is associated to the ISBN: 9780073398174. The answer to “An ideal vapor compression refrigeration cycle with R-134a as the working fluid operates between the pressure limits of 120 kPa and 700 kPa. The mass fraction of the refrigerant that is in the liquid phase at the inlet of the evaporator is(a) 0.69________________(b) 0.63________________(c) 0.58________________(d) 0.43________________(e) 0.35” is broken down into a number of easy to follow steps, and 47 words. This full solution covers the following key subjects: kpa, liquid, evaporator, fluid, fraction. This expansive textbook survival guide covers 17 chapters, and 2295 solutions.

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