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Deck 7: Entropy

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Question
R134a is condensed at a constant temperature of 30°C as it flows through the condenser of a refrigerator by rejecting heat at a rate of 6 kW. The rate of entropy change of R134a as it flows through the condenser is

A)-0.0198 kW/K
B)0 kW/K
C)0.20 kW/K
D)-0.567 kW/K
E)0.0198 kW/K
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Question
Steam is compressed from 4 MPa and 300SYMBOL 176 \f "Symbol"C to 9 MPa isentropically. The final temperature of the steam is

A)300°C
B)418°C
C)303°C
D)362°C
E)446°C
Question
The temperature of a cold orange with an average mass of 0.28 kg and average specific heat of 3.42 kJ/kg.SYMBOL 176 \f "Symbol"C rises from 7°C to 25°C as a result of heat transfer from the suroundign air. The entropy change of the orange is

A)0.213 kJ/K
B)1.22 kJ/K
C)0.0597 kJ/K
D)0 kJ/K
E)0.154 kJ/K
Question
Argon gas is compressed from 150 kPa nd 25°C to a pressure of 700 kPa adiabatically. The lowest temperature of argon after compression is

A)25°C
B)46°C
C)117°C
D)279°C
E)472°C
Question
Steam expands in an adiabatic turbine from 8 MPa and 450°C to a pressure of 50 kPa at a rate of 1.8 kg/s. The maximum power output of the turbine is

A)1129 kW
B)995 kW
C)2136 kW
D)718 kW
E)1791 kW
Question
Helium gas expands in an adiabatic turbine from 2 MPa and 750°C to 0.18 MPa at a rate of 1.5 kg/s. Assuming constant specific heats at room temperature, the maximum power output of the turbine is

A)1384 kW
B)830 kW
C)3613 kW
D)5316 kW
E)923 kW
Question
A unit mass of an ideal gas at temperature T undergoes a reversible isothermal process from volume V1 to volume V2 while loosing heat to the surroundings at temperature T in the amount of q. If the gas constant of the gas is R, the entropy change of the gas Δ\Delta s during this process is

A) Δ\Delta s =R ln(V2/V1)-q/T
B) Δ\Delta s = R ln(V2/V1)
C) Δ\Delta s =R ln(V1/V2)
D) Δ\Delta s =R ln(V1/V2)-q/T
E) Δ\Delta s= 0
Question
Air is compressed from 30°C and 4.2 L to a volume of 0.50 m3 in a reversible adiabatic manner. The air temperature after compression is

A)30°C
B)70°C
C)437°C
D)252°C
E)635°C "
Question
Heat is lost through a plane wall steadily at a rate of 750 W. If the inner and outer surface temperatures of the wall are 50°C and 15°C, respectively, the rate of entropy generation within the wall is

A)0.0289 W/K
B)2.10 W/K
C)2.08 W/K
D)0.111 W/K
E)48.0 W/K
Question
Air is compressed steadily and adiabatically from 15°C and 90 kPa to 310°C and 600 kPa. Assuming constant specific heats for air at room temperature, the isentropic efficiency of the compressor is

A)0.038
B)0.64
C)0.86
D)0.92
E)0.73
Question
Helium gas expands in an adiabatic turbine steadily from 700°C and 900 kPa to 70 kPa at a rate of 0.15 kg/s. For an isentropic efficiency of 82%, the power produced by the turbine is

A)398 kW
B)286 kW
C)592 kW
D)2650 kW
E)239 kW
Question
Water enters a pump steadily at 180 kPa at a rate of 0.012 m3/s and leaves at 1200 kPa. If the changes in kinetic and potential energies are negligible, the minimum power input to the pump is

A)37 kW
B)40 kW
C)12.2 kW
D)52 kW
E)74 kW
Question
Water enters a pump steadily at 180 kPa at a rate of 0.012 m3/s and leaves at 1200 kPa. If the pump efficiency is 0.75 and the changes in kinetic and potential energies are negligible, the power input to the pump is

A)9.2 kW
B)16.3 kW
C)22.1 kW
D)12.2 kW
E)28.5 kW
Question
Air at 900 kPa and 25°C is allowed to expand steadily and isothermally to 100 kPa at a rate of 1.4 kg/s. The maximum power output of the turbine is

A)22 kW
B)188 kW
C)263 kW
D)137 kW
E)94 kW
Question
Air is to be compressed steadily and isentropically from 2 atm to 18 atm by a two-stage compressor. To minimize the total compression work, the intermediate pressure between the two stages must be

A)4 atm
B)12 atm
C)10 atm
D)6 atm
E)18 atm
Question
Argon gas enters an adiabatic nozzle steadily at 800°C and 700 kPa with a low velocity, and exits at a pressure of 120 kPa. The highest possible velocity of helium gas at the nozzle exit is

A)649 m/s
B)503 m/s
C)888 m/s
D)1070 m/s
E)752 m/s
Question
Combustion gases with a specific heat ratio of 1.34 enter an adiabatic nozzle steadily at 720°C and 400 kPa with a low velocity, and exit at a pressure of 100 kPa. The lowest possible temperature of combustion gases at the nozzle exit is

A)426°C
B)507°C
C)699°C
D)112°C
E)363°C
Question
Refrigerant-134a enters an adiabatic turbine steadily at 40°C and 0.9 MPa, and leaves at 140 kPa. The highest possible percentage of mass of R134a that condenses at the turbine exit and leaves the turbine as a liquid is

A)2%
B)2%.
C)8%
D)12%
E)18%
Question
Liquid kerosene with a specific heat of 2.0 kJ/kg.°C enters an adiabatic piping system at 18° at a rate of 3 kg/s. If the water temperature rises by 0.4°C during flow due to friction, the rate of entropy generation in the pipe is

A)132 W/K
B)44 W/K
C)8.2 W/K
D)2.7 W/K
E)89 W/K
Question
Refrigerant-134a enters an adiabatic compressor as saturated vapor at 0.18 MPa at a rate of 1.6 kg/s, and exits at 1 MPa and 60°C. The rate of entropy generation in the turbine is

A)0 kW/K
B)0.47 kW/K
C)3.34 kW/K
D)1.26 kW/K
E)14.1 kW/K "
Question
Argon gas is compressed steadily from 100 kPa and 25°C to 700 kPa at a rate of 0.15 kg/min by an adiabatic compressor. If the compressor consumes 35 kW of power while operating, the isentropic efficiency of this compressor is

A)6.6%
B)47%
C)65%
D)100%
E)0.78%
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Deck 7: Entropy
1
R134a is condensed at a constant temperature of 30°C as it flows through the condenser of a refrigerator by rejecting heat at a rate of 6 kW. The rate of entropy change of R134a as it flows through the condenser is

A)-0.0198 kW/K
B)0 kW/K
C)0.20 kW/K
D)-0.567 kW/K
E)0.0198 kW/K
-0.0198 kW/K
2
Steam is compressed from 4 MPa and 300SYMBOL 176 \f "Symbol"C to 9 MPa isentropically. The final temperature of the steam is

A)300°C
B)418°C
C)303°C
D)362°C
E)446°C
418°C
3
The temperature of a cold orange with an average mass of 0.28 kg and average specific heat of 3.42 kJ/kg.SYMBOL 176 \f "Symbol"C rises from 7°C to 25°C as a result of heat transfer from the suroundign air. The entropy change of the orange is

A)0.213 kJ/K
B)1.22 kJ/K
C)0.0597 kJ/K
D)0 kJ/K
E)0.154 kJ/K
0.0597 kJ/K
4
Argon gas is compressed from 150 kPa nd 25°C to a pressure of 700 kPa adiabatically. The lowest temperature of argon after compression is

A)25°C
B)46°C
C)117°C
D)279°C
E)472°C
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5
Steam expands in an adiabatic turbine from 8 MPa and 450°C to a pressure of 50 kPa at a rate of 1.8 kg/s. The maximum power output of the turbine is

A)1129 kW
B)995 kW
C)2136 kW
D)718 kW
E)1791 kW
Unlock Deck
Unlock for access to all 21 flashcards in this deck.
Unlock Deck
k this deck
6
Helium gas expands in an adiabatic turbine from 2 MPa and 750°C to 0.18 MPa at a rate of 1.5 kg/s. Assuming constant specific heats at room temperature, the maximum power output of the turbine is

A)1384 kW
B)830 kW
C)3613 kW
D)5316 kW
E)923 kW
Unlock Deck
Unlock for access to all 21 flashcards in this deck.
Unlock Deck
k this deck
7
A unit mass of an ideal gas at temperature T undergoes a reversible isothermal process from volume V1 to volume V2 while loosing heat to the surroundings at temperature T in the amount of q. If the gas constant of the gas is R, the entropy change of the gas Δ\Delta s during this process is

A) Δ\Delta s =R ln(V2/V1)-q/T
B) Δ\Delta s = R ln(V2/V1)
C) Δ\Delta s =R ln(V1/V2)
D) Δ\Delta s =R ln(V1/V2)-q/T
E) Δ\Delta s= 0
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8
Air is compressed from 30°C and 4.2 L to a volume of 0.50 m3 in a reversible adiabatic manner. The air temperature after compression is

A)30°C
B)70°C
C)437°C
D)252°C
E)635°C "
Unlock Deck
Unlock for access to all 21 flashcards in this deck.
Unlock Deck
k this deck
9
Heat is lost through a plane wall steadily at a rate of 750 W. If the inner and outer surface temperatures of the wall are 50°C and 15°C, respectively, the rate of entropy generation within the wall is

A)0.0289 W/K
B)2.10 W/K
C)2.08 W/K
D)0.111 W/K
E)48.0 W/K
Unlock Deck
Unlock for access to all 21 flashcards in this deck.
Unlock Deck
k this deck
10
Air is compressed steadily and adiabatically from 15°C and 90 kPa to 310°C and 600 kPa. Assuming constant specific heats for air at room temperature, the isentropic efficiency of the compressor is

A)0.038
B)0.64
C)0.86
D)0.92
E)0.73
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11
Helium gas expands in an adiabatic turbine steadily from 700°C and 900 kPa to 70 kPa at a rate of 0.15 kg/s. For an isentropic efficiency of 82%, the power produced by the turbine is

A)398 kW
B)286 kW
C)592 kW
D)2650 kW
E)239 kW
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Unlock Deck
k this deck
12
Water enters a pump steadily at 180 kPa at a rate of 0.012 m3/s and leaves at 1200 kPa. If the changes in kinetic and potential energies are negligible, the minimum power input to the pump is

A)37 kW
B)40 kW
C)12.2 kW
D)52 kW
E)74 kW
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Unlock for access to all 21 flashcards in this deck.
Unlock Deck
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13
Water enters a pump steadily at 180 kPa at a rate of 0.012 m3/s and leaves at 1200 kPa. If the pump efficiency is 0.75 and the changes in kinetic and potential energies are negligible, the power input to the pump is

A)9.2 kW
B)16.3 kW
C)22.1 kW
D)12.2 kW
E)28.5 kW
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14
Air at 900 kPa and 25°C is allowed to expand steadily and isothermally to 100 kPa at a rate of 1.4 kg/s. The maximum power output of the turbine is

A)22 kW
B)188 kW
C)263 kW
D)137 kW
E)94 kW
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15
Air is to be compressed steadily and isentropically from 2 atm to 18 atm by a two-stage compressor. To minimize the total compression work, the intermediate pressure between the two stages must be

A)4 atm
B)12 atm
C)10 atm
D)6 atm
E)18 atm
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16
Argon gas enters an adiabatic nozzle steadily at 800°C and 700 kPa with a low velocity, and exits at a pressure of 120 kPa. The highest possible velocity of helium gas at the nozzle exit is

A)649 m/s
B)503 m/s
C)888 m/s
D)1070 m/s
E)752 m/s
Unlock Deck
Unlock for access to all 21 flashcards in this deck.
Unlock Deck
k this deck
17
Combustion gases with a specific heat ratio of 1.34 enter an adiabatic nozzle steadily at 720°C and 400 kPa with a low velocity, and exit at a pressure of 100 kPa. The lowest possible temperature of combustion gases at the nozzle exit is

A)426°C
B)507°C
C)699°C
D)112°C
E)363°C
Unlock Deck
Unlock for access to all 21 flashcards in this deck.
Unlock Deck
k this deck
18
Refrigerant-134a enters an adiabatic turbine steadily at 40°C and 0.9 MPa, and leaves at 140 kPa. The highest possible percentage of mass of R134a that condenses at the turbine exit and leaves the turbine as a liquid is

A)2%
B)2%.
C)8%
D)12%
E)18%
Unlock Deck
Unlock for access to all 21 flashcards in this deck.
Unlock Deck
k this deck
19
Liquid kerosene with a specific heat of 2.0 kJ/kg.°C enters an adiabatic piping system at 18° at a rate of 3 kg/s. If the water temperature rises by 0.4°C during flow due to friction, the rate of entropy generation in the pipe is

A)132 W/K
B)44 W/K
C)8.2 W/K
D)2.7 W/K
E)89 W/K
Unlock Deck
Unlock for access to all 21 flashcards in this deck.
Unlock Deck
k this deck
20
Refrigerant-134a enters an adiabatic compressor as saturated vapor at 0.18 MPa at a rate of 1.6 kg/s, and exits at 1 MPa and 60°C. The rate of entropy generation in the turbine is

A)0 kW/K
B)0.47 kW/K
C)3.34 kW/K
D)1.26 kW/K
E)14.1 kW/K "
Unlock Deck
Unlock for access to all 21 flashcards in this deck.
Unlock Deck
k this deck
21
Argon gas is compressed steadily from 100 kPa and 25°C to 700 kPa at a rate of 0.15 kg/min by an adiabatic compressor. If the compressor consumes 35 kW of power while operating, the isentropic efficiency of this compressor is

A)6.6%
B)47%
C)65%
D)100%
E)0.78%
Unlock Deck
Unlock for access to all 21 flashcards in this deck.
Unlock Deck
k this deck
locked card icon
Unlock Deck
Unlock for access to all 21 flashcards in this deck.
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