Explanation Conclusion: Refer table A-11, “Saturated r-134a-Temperature table”, obtain the specific volume and phase of the r-134a at temperature of − 4 ° C as 0.00764 m 3 / kg and Compressed liquid . Refer table A-11, “Saturated r-134a-Temperature table”, obtain the pressure and phase of the r-134a at temperature of 10 ° C as 414.89 kPa and Saturated mixture . Refer table A-12, “Saturated r-134a-Pressure table”, obtain the specific volume and temperature of the r-134a at pressure of 850 kPa as 0

8th Edition

ISBN: 9780073398174

Author: Yunus A. Cengel Dr., Michael A. Boles

Publisher: McGraw-Hill Education

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Thermodynamic Relations

Thermodynamics is the division of physics that deals with the transfer of any kind of energy, whether it be heat, temperature, or work, from one object to another.

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Chapter 3.8, Problem 26P

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Show the given table for refrigerant−134a.

Temperature,T, °C Pressure,P, kPa Specific volume,v, m3/kg Phase description
–4 320
10 0.0065
850 Saturated vapor
90 600

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Chapter 3.8, Problem 24P

Chapter 3.8, Problem 27P

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Thermodynamics: An Engineering Approach

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Temperature,T, °C	Pressure,P, kPa	Specific volume,v, m3/kg	Phase description
–4	320
10		0.0065
	850		Saturated vapor
90	600

Show the given table for refrigerant − 134 a . Temperature, T , ° C Pressure, P , kPa Specific volume, v , m 3 / kg Phase description –4 320 10 0.0065 850 Saturated vapor 90 600

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Show the given table for refrigerant−134a. Temperature,T, °CPressure,P, kPaSpecific volume,v, m3/kgPhase description–4320100.0065850Saturated vapor90600

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Chapter 3 Solutions

Show the given table for refrigerant−134a.

Temperature,T, °C Pressure,P, kPa Specific volume,v, m3/kg Phase description
–4 320
10 0.0065
850 Saturated vapor
90 600