Homework Answers
I think you missed to uploaded the images of remaining question but as i already solved the part of this question a while ago so i know the pressure value at state 1.
P1= 150 kpa
And P4=P1=150 kpa.
From the steam table the saturation temperature corresponding to pressure of 150 kpa is:
T4=T1= -17oC = 256K.
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Question 6 5 pts Condenser Expansion valve Compressor U Faborator Typical Refrigerator/Heat Pump Working Fluid: R-134a,...
Find a) compressor power, b) heat transfer Refrigeration/Heat Pump Cycle rate to the condenser and c)...
Find a) compressor power, b) heat transfer Refrigeration/Heat Pump Cycle rate to the condenser and c) heat transfer arte to the evaporator P2 800 kPa 2 3 P 800 kPa T2= 80°C Condenser Saturated Assumptions: SSSF, throttle valve and vapour compressor, c) negligible change in kinetic energy and negligible change in potential a COND Expansion/ Throttle W COMP R-134a m 1.5 kg/s Compressor energy valve Evaporator T1=-26.3 °C 1 4-26.3 C Saturated vapour EVAP
Problem #4 (20 points) A commercial refrigerator with refrigerant-134a as the working fluid is used to...
Problem #4 (20 points) A commercial refrigerator with refrigerant-134a as the working fluid is used to keep the refrigerated space at -30°C by rejecting its waste heat to cooling water that enters the condenser at 18°C at a rate of 0.25 kg/s and leaves at 26°C. The refrigerant enters the condenser at 1.2 MPa and 65°C and leaves at 42°C. The inlet state of the compressor is 60 kPa and-34°Cand the compressor is estimated to gain a net heat of...
Figure 12.1 is a schematic of a heat pump operating at steady state with R-134a as...
Figure 12.1 is a schematic of a heat pump operating at steady state with R-134a as the working fluid. The mass flow rate of the refrigerant is 7 kg/min, and the power input to the compressor is 5.17 kW. Determine a) The coefficient of performance, y b) If the valve were replaced by a turbine, what would be the maximum power generated by the turbine c) Based on your answer to b) would you recommend the replacement of a throttle...
Problem #3 Refrigerant R-134a enters the condenser of a heat pump at 1000 kPa and 80°C...
Problem #3 Refrigerant R-134a enters the condenser of a heat pump at 1000 kPa and 80°C at a rate of 0.025 kg/s and leaves at 1000 kPa as saturated liquid. If the compressor consumes 2 kW of power, determine: a) The COP of the heat pump (as heating device). b) The rate of heat absorption from the outside air. тан Condenser Throttling valve Compressor Evaporator To
Problem I: Not applicable for 2017 Problem II: In an R-134a vapor-compression home heat pump, R-134A...
Problem I: Not applicable for 2017 Problem II: In an R-134a vapor-compression home heat pump, R-134A enters the compressor (75% isentropic efficiency) as a saturated vapor at 200 kPa and leaves at 800 kPa. The refrigerant goes through a constant pressure condenser and leaves as a saturated liquid. The refrigerant then goes through an adiabatic expansion valve enters the evaporator as a liquid-vapor mixture. The mass flow rate of refrigerant is 0.1 kg/s. and Cod A. Write the equation for...
A commercial refrigerator with refrigerant-134a as the working fluid is used to keep the refrigerated space at by The refrigerant enters the condenser at compressor consumes 3.3 kW of power, dete...
A commercial refrigerator with refrigerant-134a as the working fluid is used to keep the refrigerated space at by The refrigerant enters the condenser at compressor consumes 3.3 kW of power, determine (a) the mass flow rate of the refrigerant, (b) the refrigeration load, (e) the COP, and (d) the g waste heat to cooling water that enters the condenser at 18°C at a rate of 0.25 kg/s and leaves at 26°C. 1.2 MPa and 50°C and leaves at the same...
1) A commercial refrigerator with refrigerant-134a as the working fluid is used to keep the refrigerated...
1) A commercial refrigerator with refrigerant-134a as the working fluid is used to keep the refrigerated space at -30°C by rejecting its waste heat to cooling water that enters the condenser at 16 °C at a rate of 0.25 kg/s and leaves at 26°C. The refrigerant enters the condenser at 1.2 MPa and 65°C and leaves at 42°C. The inlet state of the compressor is 60 kPa and -34°C and the compressor is estimated to gain a net heat of...
QUESTION 1 A heat pump with refrigerant-134a as the working fluid is used to keep a...
QUESTION 1 A heat pump with refrigerant-134a as the working fluid is used to keep a space at 25°C by absorbing heat from geothermal water that enters the evaporator at 50°C at a rate of 0.065 kg/s and leaves at 40°C. The refrigerant enters the evaporator at 20°C with a quality of 23 percent and leaves at the inlet pressure as saturated vapor. The refrigerant loses 300 W of heat to the surroundings as it flows through the compressor and...
A compressor of a heat pump with refrigerant-134a as the working fluid consumes 2.3 kW of...
A compressor of a heat pump with refrigerant-134a as the working fluid consumes 2.3 kW of power is used to keep a space at 25°C by absorbing heat from geothermal water that enters the evaporator at 60°C at a rate of 0.065 kg/s and leaves at 50°C. Refrigerant ententhe evaporator at 30Cwithaqualityof 15 percent and leaves atthe same pressure as saturated vapor. determine the mass flow rate of the refrigerant
Please help with HW 37 Qoutl condenser Condenser A standard 4-component vapor-compression cycle using R-134a is...
Please help with HW 37
Qoutl condenser Condenser A standard 4-component vapor-compression cycle using R-134a is shown in the figure to the right. The cycle is used as a refrigeration cycle to cool a refrigerator at 5 °C with a cooling capacity of 200 W, with a heat transfer to a kitchen at 20 °C. Assume that the pressure drops in the evaporator and condenser are negligible, and that the compressor and expansion valve are adiabatic. Take the boundary temperature...
Find a) compressor power, b) heat transfer Refrigeration/Heat Pump Cycle rate to the condenser and c) heat transfer arte to the evaporator P2 800 kPa 2 3 P 800 kPa T2= 80°C Condenser Saturated Assumptions: SSSF, throttle valve and vapour compressor, c) negligible change in kinetic energy and negligible change in potential a COND Expansion/ Throttle W COMP R-134a m 1.5 kg/s Compressor energy valve Evaporator T1=-26.3 °C 1 4-26.3 C Saturated vapour EVAP
Problem #4 (20 points) A commercial refrigerator with refrigerant-134a as the working fluid is used to keep the refrigerated space at -30°C by rejecting its waste heat to cooling water that enters the condenser at 18°C at a rate of 0.25 kg/s and leaves at 26°C. The refrigerant enters the condenser at 1.2 MPa and 65°C and leaves at 42°C. The inlet state of the compressor is 60 kPa and-34°Cand the compressor is estimated to gain a net heat of...
Figure 12.1 is a schematic of a heat pump operating at steady state with R-134a as the working fluid. The mass flow rate of the refrigerant is 7 kg/min, and the power input to the compressor is 5.17 kW. Determine a) The coefficient of performance, y b) If the valve were replaced by a turbine, what would be the maximum power generated by the turbine c) Based on your answer to b) would you recommend the replacement of a throttle...
Problem #3 Refrigerant R-134a enters the condenser of a heat pump at 1000 kPa and 80°C at a rate of 0.025 kg/s and leaves at 1000 kPa as saturated liquid. If the compressor consumes 2 kW of power, determine: a) The COP of the heat pump (as heating device). b) The rate of heat absorption from the outside air. тан Condenser Throttling valve Compressor Evaporator To
Problem I: Not applicable for 2017 Problem II: In an R-134a vapor-compression home heat pump, R-134A enters the compressor (75% isentropic efficiency) as a saturated vapor at 200 kPa and leaves at 800 kPa. The refrigerant goes through a constant pressure condenser and leaves as a saturated liquid. The refrigerant then goes through an adiabatic expansion valve enters the evaporator as a liquid-vapor mixture. The mass flow rate of refrigerant is 0.1 kg/s. and Cod A. Write the equation for...
A commercial refrigerator with refrigerant-134a as the working fluid is used to keep the refrigerated space at by The refrigerant enters the condenser at compressor consumes 3.3 kW of power, determine (a) the mass flow rate of the refrigerant, (b) the refrigeration load, (e) the COP, and (d) the g waste heat to cooling water that enters the condenser at 18°C at a rate of 0.25 kg/s and leaves at 26°C. 1.2 MPa and 50°C and leaves at the same...
1) A commercial refrigerator with refrigerant-134a as the working fluid is used to keep the refrigerated space at -30°C by rejecting its waste heat to cooling water that enters the condenser at 16 °C at a rate of 0.25 kg/s and leaves at 26°C. The refrigerant enters the condenser at 1.2 MPa and 65°C and leaves at 42°C. The inlet state of the compressor is 60 kPa and -34°C and the compressor is estimated to gain a net heat of...
QUESTION 1 A heat pump with refrigerant-134a as the working fluid is used to keep a space at 25°C by absorbing heat from geothermal water that enters the evaporator at 50°C at a rate of 0.065 kg/s and leaves at 40°C. The refrigerant enters the evaporator at 20°C with a quality of 23 percent and leaves at the inlet pressure as saturated vapor. The refrigerant loses 300 W of heat to the surroundings as it flows through the compressor and...
A compressor of a heat pump with refrigerant-134a as the working fluid consumes 2.3 kW of power is used to keep a space at 25°C by absorbing heat from geothermal water that enters the evaporator at 60°C at a rate of 0.065 kg/s and leaves at 50°C. Refrigerant ententhe evaporator at 30Cwithaqualityof 15 percent and leaves atthe same pressure as saturated vapor. determine the mass flow rate of the refrigerant
Please help with HW 37
Qoutl condenser Condenser A standard 4-component vapor-compression cycle using R-134a is shown in the figure to the right. The cycle is used as a refrigeration cycle to cool a refrigerator at 5 °C with a cooling capacity of 200 W, with a heat transfer to a kitchen at 20 °C. Assume that the pressure drops in the evaporator and condenser are negligible, and that the compressor and expansion valve are adiabatic. Take the boundary temperature...
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