Concept explainers
Complete the blank cells in the following table of properties of refrigerant-134a. In the last column, describe the condition of refrigerant-134a as compressed liquid, saturated mixture, superheated vapor, or insufficient information, and, if applicable, give the quality.
The following table for refrigerant-134a which are blank.
P, kPa | u, kJ/kg | x, quality | Phase description | ||
320 | -12 | ||||
1000 | 39.37 | ||||
40 | 1.17794 | ||||
180 | 0.0700 | ||||
200 | 249 |
Explanation of Solution
State 1
Refer to Table A-12, obtain the value of saturated temperature at a pressure of 320 kPa as
The given temperature in state 1 is less than the saturated temperature at a pressure of 320 kPa.
Hence, state 1 is compressed liquid.
As wee see now there is no data for compressed liquid water in table A-7 for pressure 320 kPa, so calculate the specific internal energy and specific volume of a mixture at a saturated refrigerant-134a at a temperature of
State 2
Refer to Table A-4, obtain the specific volume at saturated liquid and specific internal energy at saturated liquid at a temperature of
Thus, the state 2 condition is saturated liquid.
State 3
Refer to Table A-13, “Superheater refrigerant-134a”, obtain the pressure and specific internal energy at a temperature and specific volume of
The given specific internal energy is greater than the specific internal energy at saturated vapour at a pressure of 140 kPa refer from Table A-12.
Thus, state 3 is a superheated steam.
State 4
Refer to Table A-12, obtain the specific volume and specific internal energy at saturated liquid
As we see now the given specific volume of the mixture
Hence, the state 4 is known as saturated mixture.
Refer to Table A-12, obtain the temperature at a pressure of 180 kPa as
Calculate the quality at state 1.
Substitute
Calculate the specific internal state.
Here, specific internal energy at saturated liquid and saturated vapour is
Substitute
State 5
Since
Thus, the state 5 is superheated steam.
Convert the unit of pressure from kPa to MPa.
Refer to Table A-13, obtain the temperature and specific volume at a pressure of 0.20 MPa and specific intenal energy of 249 kJ/kg as
From the above calculations and referred from the steam table, complete the table of
P, kPa | u, kJ/kg | x, quality | Phase description | ||
320 | -12 | --- | compressed liquid | ||
1000 | 39.37 | -- | saturated liquid | ||
40 | 1.17794 | - | superheated steam | ||
180 | 0.0700 | saturated mixture | |||
200 | 249 | -- | superheated steam |
Want to see more full solutions like this?
Chapter 3 Solutions
THERMODYNAMICS: ENG APPROACH LOOSELEAF
- (c) The saturation pressure and enthalpy of evaporation for refrigerant R134a at 25°C can be found from the table of properties given to you in class. Without any additional experimental data, estimate the saturation pressure at 5"C.arrow_forwardHow do we solve this one ?arrow_forwardO Problem Set... -> Problem Set 4 Required Problems (Turn in) 1. A 1.8-m' rigid tank contains steam at 150°C. One fourth of the volume is in the liquid phase and the rest is in the vapor form. Determine (a) the pressure of the steam, (b) the quality of the saturated mixture, and (c) the density of the mixture. 2. A piston-cylinder device initially contains 50 L of liquid water at 80°C and 400 kPa. Heat is transferred to the water at constant pressure until the entire liquid is vaporized. (a) What is the mass of the water? (b) What is the final temperature? (c) Determine the total enthalpy change. (d) Show the process on a T-v diagram with respect to saturation lines. Highly Recommended Problems (Do not turn in) 1. CB, problem 3-2 2. CB, problem 3-4. 3. CB, problem 3-6. 4. CB, problem 3-11. 5. CB, problem 3-17. 6. CB, problem 3-20. 7. CB, problem 3-25. 8. CB, problem 3-30. 9. CB, problem 3-51. 10. CB, problem 3-54. 11. CB, problem 3-64. II > ...arrow_forward
- B- A 1.8 m rigid tank contains a refrigerant-134a at 50°C. One-third of the volume is in the liquid phase and the rest is in the vapor form. Determine (a) the pressure of the refrigerant-134a, (b) the quality of the saturated mixture, and (c) the density of the mixture. Use the table below: Temp. 'C Sat. Press. kPa 1253.6 v Sat. Liquid m'/kg V Sat. Vapour m /kg 0.015939 0.014265 48 0.0008996 52 1386.2 0.0009150arrow_forwardHow did you determine the properties of water at state 3?arrow_forwardFor a liquid-vapour mixture, which of the following can give us all the properties of the mixture?arrow_forward
- 4. A 6m³ tank contains helium at 400K and is evacuated from atmospheric pressure to a pressure of 740 mm Hg vacuum. Determine (a) mass of helium remaining in the tank, (b) mass of helium pumped out, (c) the temperature of the remaining helium falls to 10°C. What is the pressure in kPa? Ans.(a) 0.01925 kg (b) 0.7123 kg (c) 1.886 kPaarrow_forwardSaturated Refrigerant-134a vapor Saturated liquid A tank occupied by saturated liquid-vapor mixture of refrigerant-134a at 3 MPa. If the fraction of the total volume occupied by vapor (Vsaturate vapor/ Vtotal) is O.94 determine quality of the mixture. Present your result as percent. (For example, if you find 0.952, enter your result to system as 95.2)arrow_forwardSaturated water vapor at 50°C has its pressure decreased to increase the volume by54.571% keeping the temperature constant. To what pressure should it be expanded? Draw a schematic diagram,and then plot the state/s and process, whichever is applicable in a t-sdiagramarrow_forward
- What is the difference between saturated liquid and compressed liquid?arrow_forwardConsider an ideal gas that undergoes a process through which Volume ratio (Vol,/Vol, = 0.50) and pressure ratio (P,/P,= 3.01). What is the poly- tropic index (n) for this process?arrow_forwardPlease show your work. Thank you!arrow_forward
- Elements Of ElectromagneticsMechanical EngineeringISBN:9780190698614Author:Sadiku, Matthew N. O.Publisher:Oxford University PressMechanics of Materials (10th Edition)Mechanical EngineeringISBN:9780134319650Author:Russell C. HibbelerPublisher:PEARSONThermodynamics: An Engineering ApproachMechanical EngineeringISBN:9781259822674Author:Yunus A. Cengel Dr., Michael A. BolesPublisher:McGraw-Hill Education
- Control Systems EngineeringMechanical EngineeringISBN:9781118170519Author:Norman S. NisePublisher:WILEYMechanics of Materials (MindTap Course List)Mechanical EngineeringISBN:9781337093347Author:Barry J. Goodno, James M. GerePublisher:Cengage LearningEngineering Mechanics: StaticsMechanical EngineeringISBN:9781118807330Author:James L. Meriam, L. G. Kraige, J. N. BoltonPublisher:WILEY