CENGEL'S 9TH EDITION OF THERMODYNAMICS:
CENGEL'S 9TH EDITION OF THERMODYNAMICS:
9th Edition
ISBN: 9781260917055
Author: CENGEL
Publisher: MCG
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Chapter 3.8, Problem 63P

The spring-loaded piston–cylinder device shown in Fig. P3–63 is filled with 0.5 kg of water vapor that is initially at 4 MPa and 400°C. Initially, the spring exerts no force against the piston. The spring constant in the spring force relation F = kx is k = 0.9 kN/cm and the piston diameter is D = 20 cm. The water now undergoes a process until its volume is one-half of the original volume. Calculate the final temperature and the specific enthalpy of the water.

FIGURE P3–63

Chapter 3.8, Problem 63P, The spring-loaded pistoncylinder device shown in Fig. P363 is filled with 0.5 kg of water vapor that

Expert Solution & Answer
Check Mark
To determine

The final temperature of the spring-loaded piston-cylinder device.

The enthalpy of the spring-loaded piston-cylinder device.

Answer to Problem 63P

The final temperature of the spring-loaded piston-cylinder device is 220°C_.

The enthalpy of the spring-loaded piston-cylinder device is 1721kJ/kg_

Explanation of Solution

Write the final temperature of the spring-loaded piston-cylinder device using linear Pν process.

P2P1=c(v2v1)=(kmA2)(v12v1)=(km(πD24)2)(v12v1)=(km(πD24)2)2(v1) (I)

Here, the spring constant is k, the mass of the water is m, the diameter of the piston device is D, and the initial specific volume is v1.

Determine the final specific volume of the spring-loaded piston-cylinder device.

v2=v12 (II)

Determine the quality of final state for the spring-loaded piston-cylinder device.

x2=v2vf(vgvf) (III)

Here, the specific volume of saturated liquid is vf and the specific volume of saturated vapour is vg.

Determine the enthalpy at the final state of the spring-loaded piston-cylinder device.

h2=hf+x2hfg (IV)

Here, the specific enthalpy of saturated liquid is hf and the specific volume change upon vapourization is hfg.

Conclusion:

From the Table A-6, “Superheated water” to obtain the value of the specific volume of steam at 4 MPa of pressure and 400°C of temperature as 0.07343m3/kg.

Substitute 90kN/m for k, 0.5kg for m, 0.2m for D, 4MPa for P1, and 0.07343m3/kg for v1 in Equation (I)

P2(4MPa)=((90kN/m)(0.5kg)(π(20cm)24)2)2(0.07343m3/kg)P2(4MPa)×(1000kPa1MPa)=((90kN/m)(0.5kg)(π(20cm)2×(1m100cm)4)2)2(0.07343m3/kg)P2(4000kPa)=(45,594.5kNkg/m5)2(0.07343m3/kg)P2=(4000kPa)(45,594.5kNkg/m5)2(0.07343m3/kg)

P2=(4000kPa)(45,594.5kNkg/m5)2(0.07343m3/kg)=(4000kPa)(22797.27kNkg/m5)(0.07343m3/kg)=2325.9kPa2326kPa

Substitute 0.07343m3/kg for v1 in Equation (II).

v2=0.07343m3/kg2=0.036715m3/kg0.03672m3/kg

Refer to Table A-6, “Saturated water”, obtain the below properties at the final pressure 2326kPa using interpolation method of two variables.

Write the formula of interpolation method of two variables.

y2=(x2x1)(y3y1)(x3x1)+y1 (V)

Here, the variables denote by x and y are pressure and temperature.

Show the pressure at 2250kPa and 2500kPa as in Table (1).

S. No

Pressure,

kPa (x)

Temperature, °C

(y)

12250kPa218.41
22326kPay2=?
32500kPa223.95

Calculate final temperature at the pressure 2326kPa for liquid phase using interpolation method.

Substitute 2250kPa for x1, 2326kPa for x2, 2500kPa for x3, 218.41°C for y1, and 223.95°C for y3 in Equation (V).

y2=(2326kPa2250kPa)(223.95°C218.41°C)(2500kPa2250kPa)+(218.41°C)=220.09°C220°C

From above calculation the final temperature at the pressure 2326kPa is 220°C

Thus, the final temperature of the spring-loaded piston-cylinder device is 220°C_.

Repeat the above Equation (V), to obtain the value of specific volume of saturated liquid, the specific volume of saturated vapour, specific enthalpy of saturated liquid and the specific enthalpy of saturated vapour at the final pressure 2326kPa as:

vf=0.001190m3/kgvg=0.086094m3/kghf=943.55kJ/kghfg=1857.4kJ/kg

Substitute 0.001190m3/kg for vf, 0.086094m3/kg for vg, and 0.03672m3/kg for v2 in Equation (III).

x2=(0.03672m3/kg)(0.001190m3/kg)(0.086094m3/kg0.001190m3/kg)=(0.03553m3/kg)(0.086904m3/kg)=0.418470.4185

Substitute 943.55kJ/kg for hf, 0.4185 for x2, and 1857.4kJ/kg for hfg in Equation (IV).

h2=(943.55kJ/kg)+(0.4185)×(1857.4kJ/kg)=(943.55kJ/kg)+(1857.4kJ/kg)=1720.87kJ/kg1721kJ/kg

Thus, the enthalpy of the spring-loaded piston-cylinder device is 1721kJ/kg_

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Chapter 3 Solutions

CENGEL'S 9TH EDITION OF THERMODYNAMICS:

Ch. 3.8 - Does the amount of heat absorbed as 1 kg of...Ch. 3.8 - Does the reference point selected for the...Ch. 3.8 - What is the physical significance of hfg? Can it...Ch. 3.8 - Does hfg change with pressure? 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Using appropriate software,...Ch. 3.8 - A 1-m3 tank containing air at 10C and 350 kPa is...Ch. 3.8 - A mass of 10 g of oxygen fill a weighted...Ch. 3.8 - A mass of 0.1 kg of helium fills a 0.2 m3 rigid...Ch. 3.8 - A rigid tank whose volume is unknown is divided...Ch. 3.8 - A rigid tank contains 20 lbm of air at 20 psia and...Ch. 3.8 - In an informative article in a magazine it is...Ch. 3.8 - What is the physical significance of the...Ch. 3.8 - Determine the specific volume of refrigerant-134a...Ch. 3.8 - Refrigerant-134a at 400 psia has a specific volume...Ch. 3.8 - Determine the specific volume of superheated water...Ch. 3.8 - Determine the specific volume of superheated water...Ch. 3.8 - Determine the specific volume of nitrogen gas at...Ch. 3.8 - Prob. 88PCh. 3.8 - Carbon dioxide gas enters a pipe at 3 MPa and 500...Ch. 3.8 - Prob. 90PCh. 3.8 - A 0.016773-m3 tank contains 1 kg of...Ch. 3.8 - Prob. 92PCh. 3.8 - What is the percentage of error involved in...Ch. 3.8 - What is the physical significance of the two...Ch. 3.8 - Refrigerant-134a at 400 psia has a specific volume...Ch. 3.8 - A 3.27-m3 tank contains 100 kg of nitrogen at 175...Ch. 3.8 - Nitrogen at 150 K has a specific volume of...Ch. 3.8 - A 1-m3 tank contains 2.841 kg of steam at 0.6 MPa....Ch. 3.8 - Prob. 103PCh. 3.8 - Prob. 104PCh. 3.8 - On a certain day, the temperature and relative...Ch. 3.8 - Prob. 106PCh. 3.8 - Consider two rooms that are identical except that...Ch. 3.8 - A thermos bottle is half-filled with water and is...Ch. 3.8 - Complete the blank cells in the following table of...Ch. 3.8 - Complete the blank cells in the following table of...Ch. 3.8 - Prob. 111RPCh. 3.8 - Prob. 112RPCh. 3.8 - The gage pressure of an automobile tire is...Ch. 3.8 - A tank contains argon at 600C and 200 kPa gage....Ch. 3.8 - The combustion in a gasoline engine may be...Ch. 3.8 - Prob. 116RPCh. 3.8 - Prob. 117RPCh. 3.8 - A rigid tank with a volume of 0.117 m3 contains 1...Ch. 3.8 - A 9-m3 tank contains nitrogen at 17C and 600 kPa....Ch. 3.8 - A 10-kg mass of superheated refrigerant-134a at...Ch. 3.8 - A 4-L rigid tank contains 2 kg of saturated...Ch. 3.8 - Prob. 123RPCh. 3.8 - A tank whose volume is unknown is divided into two...Ch. 3.8 - Prob. 125RPCh. 3.8 - A tank contains helium at 37C and 140 kPa gage....Ch. 3.8 - Prob. 127RPCh. 3.8 - On the property diagrams indicated below, sketch...Ch. 3.8 - Ethane at 10 MPa and 100C is heated at constant...Ch. 3.8 - Steam at 400C has a specific volume of 0.02 m3/kg....Ch. 3.8 - Consider an 18-m-diameter hot-air balloon that,...Ch. 3.8 - Prob. 135FEPCh. 3.8 - A 3-m3 rigid vessel contains steam at 2 MPa and...Ch. 3.8 - Prob. 137FEPCh. 3.8 - Water is boiled at 1 atm pressure in a coffeemaker...Ch. 3.8 - Prob. 139FEPCh. 3.8 - Water is boiled in a pan on a stove at sea level....Ch. 3.8 - A rigid tank contains 2 kg of an ideal gas at 4...Ch. 3.8 - The pressure of an automobile tire is measured to...Ch. 3.8 - Consider a sealed can that is filled with...
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