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6.5 lbm/s of refrigerant 134a initially at 40 psia and 60 F is throttled adiabatically to...
3. Refrigerant-134a flows at a rate of 9 Ibm/s at 40 psia, and 100°F. The refrigerant is then thr...
3. Refrigerant-134a flows at a rate of 9 Ibm/s at 40 psia, and 100°F. The refrigerant is then throttled adiabatically to 10 psia (a) What is the volumetric flow rate before throttling in ft'/s? Ans: 12.596 ft'/s (b) What is the volumetric flow rate after throttling in ft'/s? Assume that the change in kinetic energy is negligible. Ans: 51.64 ft/s (c) What is the temperature after throttling in "F? Ans: 92.763°F
3. Refrigerant-134a flows at a rate of 9 Ibm/s...
A 17-ft3 rigid tank initially contains saturated refrigerant-134a vapor at 160 psia. As a result of...
A 17-ft3 rigid tank initially contains saturated refrigerant-134a vapor at 160 psia. As a result of heat transfer from the refrigerant, the pressure drops to 50 psia. a.) Determine the final temperature. Use data from refrigerant tables. (Please provide an answer before moving on to the next part.) b.) Determine the amount of refrigerant that has condensed.(lbm) (Please provide an answer before moving on to the next part.) c.) Determine the heat transfer. (Btu)
Five lbm/min of Refrigerant 134a enters a water-jacketed compressor as a saturated vapor at 10 psia...
Five lbm/min of Refrigerant 134a enters a water-jacketed compressor as a saturated vapor at 10 psia and is discharged at 140 psia, 120°F. The power supplied to run the compressor is 10 HP. Cooling water enters the water-jacket at 70°F and leaves at 100°F. Determine the mass flow rate of the cooling water.
Question 1 Refrigerant 134a enters an insulated diffuser as a saturated vapor at 80°F with a...
Question 1 Refrigerant 134a enters an insulated diffuser as a saturated vapor at 80°F with a velocity of 1400 ft/s. The inlet area is 1.4 in2. At the exit, the pressure is 400 lb/in and the velocity is negligible. The diffuser operates at steady state and potential energy effects can be neglected. Determine the mass flow rate, in Ib/s, and the exit temperature, in °F
A Refrigeration System Using R-134A In a refrigeration system, the refrigerant R-134A begins as s...
A Refrigeration System Using R-134A In a refrigeration system, the refrigerant R-134A begins as saturated vapor at -15°(State 1). It then goes through a reversible adiabatic compressor to reach State 2. After flowing through the condenser (a heat exchanger), the refrigerant exits as saturated liquid at 70°C (State 3). It is then throttled by going through an expansion valve, to reach State 4. It finishes the cycle by going through another heat exchanger (the evaporator), to return to State 1....
2. (60 points) Water that is flowing in a pipe at 25 psia and 200 °F...
2. (60 points) Water that is flowing in a pipe at 25 psia and 200 °F at a rate of 1900 lbm/hr (state 1), cools down to 20 psia and 110 °F (state 2). Then it is mixed with a stream of water at a rate of 1000 lbm/hr at 20 psia and 240 °F (state 3). The mixing process is constant pressure (P2=P;-P) and adiabatic. Find the heat transfer rate from the water (0) and final enthalpy and temperature...
Refrigerant 134a enters a well-insulated nozzle at 14 bar, 60°C, with a velocity of 40 m/s...
Refrigerant 134a enters a well-insulated nozzle at 14 bar, 60°C, with a velocity of 40 m/s and exits at 1.2 bar with a velocity of 460 m/s. For steady-state operation, and neglecting potential energy effects, determine: (a) the exit temperature, in K.
Please explain in detail 노 . Complete the fellerwing Substance Pressu emperature Phane 50 psia R-134a...
Please explain in detail
노 . Complete the fellerwing Substance Pressu emperature Phane 50 psia R-134a R-134a 100°F 40 F Saturabed liqd 4 kg'sec of 1H:0 at pressure 6.0 MPa, temperature 700 C emers a turbine moving at 20 meters ve. t esits the turbine moving at l6 meters/ see with pressare 500 kPa and temperature 350°C. The tarbine is operating a sady-stane. The ransfer rate for the turbine is 20 kilojoules second a) Determine the specific energy of the...
4: Refrigerant-134a at 1 MPa and 90°C is to be cooled to 1 MPa and 40°C...
4: Refrigerant-134a at 1 MPa and 90°C is to be cooled to 1 MPa and 40°C in a condenser by air. The air enters at 100 kPa and 27 C with a volume flow rate of 600 m3/min and leaves at 95 kPa and 65°C Determine the mass flow rate of the refrigerant. 5: The hot- water needs of a household are to be met by heating water at 55°F to 180°F by solar collector at a rate of 5...
Problem 4.069 The figure belows shows three components of an air-conditioning system, where T3 115°F and...
Problem 4.069 The figure belows shows three components of an air-conditioning system, where T3 115°F and 4.5 Ib/s. Refrigerant 134a flows through a throttling valve and a heat exchanger while air flows through a fan and the same heat exchanger. Data for steady-state operation are given on the figure. There is no significant heat transfer between any of the components and the surroundings. Kinetic and potential energy effects are negligible. Air T 535 R cp = 0.240 Btu/lb-R Saturated liquid...
3. Refrigerant-134a flows at a rate of 9 Ibm/s at 40 psia, and 100°F. The refrigerant is then throttled adiabatically to 10 psia (a) What is the volumetric flow rate before throttling in ft'/s? Ans: 12.596 ft'/s (b) What is the volumetric flow rate after throttling in ft'/s? Assume that the change in kinetic energy is negligible. Ans: 51.64 ft/s (c) What is the temperature after throttling in "F? Ans: 92.763°F
3. Refrigerant-134a flows at a rate of 9 Ibm/s...
Question 1 Refrigerant 134a enters an insulated diffuser as a saturated vapor at 80°F with a velocity of 1400 ft/s. The inlet area is 1.4 in2. At the exit, the pressure is 400 lb/in and the velocity is negligible. The diffuser operates at steady state and potential energy effects can be neglected. Determine the mass flow rate, in Ib/s, and the exit temperature, in °F
A Refrigeration System Using R-134A In a refrigeration system, the refrigerant R-134A begins as saturated vapor at -15°(State 1). It then goes through a reversible adiabatic compressor to reach State 2. After flowing through the condenser (a heat exchanger), the refrigerant exits as saturated liquid at 70°C (State 3). It is then throttled by going through an expansion valve, to reach State 4. It finishes the cycle by going through another heat exchanger (the evaporator), to return to State 1....
2. (60 points) Water that is flowing in a pipe at 25 psia and 200 °F at a rate of 1900 lbm/hr (state 1), cools down to 20 psia and 110 °F (state 2). Then it is mixed with a stream of water at a rate of 1000 lbm/hr at 20 psia and 240 °F (state 3). The mixing process is constant pressure (P2=P;-P) and adiabatic. Find the heat transfer rate from the water (0) and final enthalpy and temperature...
Please explain in detail
노 . Complete the fellerwing Substance Pressu emperature Phane 50 psia R-134a R-134a 100°F 40 F Saturabed liqd 4 kg'sec of 1H:0 at pressure 6.0 MPa, temperature 700 C emers a turbine moving at 20 meters ve. t esits the turbine moving at l6 meters/ see with pressare 500 kPa and temperature 350°C. The tarbine is operating a sady-stane. The ransfer rate for the turbine is 20 kilojoules second a) Determine the specific energy of the...
4: Refrigerant-134a at 1 MPa and 90°C is to be cooled to 1 MPa and 40°C in a condenser by air. The air enters at 100 kPa and 27 C with a volume flow rate of 600 m3/min and leaves at 95 kPa and 65°C Determine the mass flow rate of the refrigerant. 5: The hot- water needs of a household are to be met by heating water at 55°F to 180°F by solar collector at a rate of 5...
Problem 4.069 The figure belows shows three components of an air-conditioning system, where T3 115°F and 4.5 Ib/s. Refrigerant 134a flows through a throttling valve and a heat exchanger while air flows through a fan and the same heat exchanger. Data for steady-state operation are given on the figure. There is no significant heat transfer between any of the components and the surroundings. Kinetic and potential energy effects are negligible. Air T 535 R cp = 0.240 Btu/lb-R Saturated liquid...
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