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Problem 3 A vessel with a volume ofo.1 m is used as a refrigerant storage for...
A vessel with a volume of 0.008 m3 contains a liquid-vapor mixture of refrigerant 134a at...
A vessel with a volume of 0.008 m3 contains a liquid-vapor mixture of refrigerant 134a at 200 kPa and a quality of 20%. Determine: a) the mass of vapor present in kg, and b) the fraction of the total volume occupied by the liquid.
a rigid 14 l vessel initially contains refrigerant 134a at 30 c and has a specific volume of 0.07m^3/kg. the mixture is...
a rigid 14 l vessel initially contains refrigerant 134a at 30 c and has a specific volume of 0.07m^3/kg. the mixture is having heat transfer to reach a pressure of 200kPa. calculate the heat transfer required for this process. state the process is heat addition or rejection to or from the system.
3. An air-conditioning system is shown in Fig.3, in which air flows over tubes carrying Refrigerant...
3. An air-conditioning system is shown in Fig.3, in which air flows over tubes carrying Refrigerant 134a. Air enters with a volumetric flow rate of 50 m3/min at 32°C, 1 bar, and exits at 22°C, 0.95 bar. Refrigerant enters the tubes at 5 bar with a quality of 20% and exits at 5 bar, 20°C. Ignoring heat transfer at the outer surface of the air conditioner, and neglecting kinetic and potential energy effects, determine at steady state (a) the mass...
An insulated rigid vessel contains 5kg of saturated liquid-vapor mixture of Refrigerant- 134a at 200kPa. At...
An insulated rigid vessel contains 5kg of saturated liquid-vapor mixture of Refrigerant- 134a at 200kPa. At this stage, one-fifth of the mass is in vapor phase and rest is in liquid. Now using an electrical resistance heater, heat is supplied to the contents of the vessel until all of the refrigerant is converted to saturated vapor. Show this process on a P v diagram with respect to saturation lines and determine, 1. volume of the rigid vessel 2. temperature, in...
QUESTIONS 1. Refrigerant-134a is cooled by water in a condenser. The refrigerant enters the condenser at...
QUESTIONS 1. Refrigerant-134a is cooled by water in a condenser. The refrigerant enters the condenser at a pressure of 1 MPa and a temperature of 70°C at a flow rate of 6 kg / min and exits at a temperature of 35 °C. Cooling water enters the condenser at 300 kPa pressure and 15 °C temperature and exits at 25 °C temperature. By neglecting pressure losses, Calculate; a) mass flow of cooling water b) the heat transfer from the refrigerant...
Show full work. The table referred to is attached. Problem 3 6 marks] Use the provided...
Show full work. The table referred to is attached.
Problem 3 6 marks] Use the provided data tables for R134a to answer this problem. A closed vessel contains refrigerant-134a with a vapor fraction (kg vapor/kg total) of 0.9 at -10C. If the contents are heated to a temperature of 70°C, determine: a) The initial pressure in the vessel. b) The mass of R134a in the system c) The amount of heat added. d) The final pressure.
Problem 3 Ten kilograms of refrigerant-134a fill a weighted piston-cylinder container with the volume of 1.595...
Problem 3 Ten kilograms of refrigerant-134a fill a weighted piston-cylinder container with the volume of 1.595 mat a temperature of -26 C. The container is now heated until the temperature is 90 'C. Determine the final volume of the refrigerant-134a. R-134a -26°C 10 kg 1.595 m3
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...
Problem 7.023 SI As shown in the figure below, 1.25 kg of refrigerant R-134a is contained...
Problem 7.023 SI As shown in the figure below, 1.25 kg of refrigerant R-134a is contained in a well-insulated piston-cylinder assembly fitted with an electrical resistor of negligible mass. The refrigerant is initially at 2 bar and a quality of 50%. The resistor is activated until the volume of the refrigerant doubles, while its pressure varies negligibly. Determine, in kJ (a) the amount of energy transfer by work to the piston and (b) the accompanying exergy transfer. (c) the amount...
5. Refrigerant-134a at 700kPa, 70°C, and 8 kg/min is cooled by air in a condenser until...
5. Refrigerant-134a at 700kPa, 70°C, and 8 kg/min is cooled by air in a condenser until it exits as a saturated liquid at the same pressure. The cooling air enters the condenser at 1MPa and 10°C and leaves at 17°C at the same pressure. Determine: a) Considering only the Refrigerant as a system, the heat transfer rate of a refrigerant from the condenser in (kl/min). R-134a Tables are attached! b) The mass flow rate of the air required for cooling...
3. An air-conditioning system is shown in Fig.3, in which air flows over tubes carrying Refrigerant 134a. Air enters with a volumetric flow rate of 50 m3/min at 32°C, 1 bar, and exits at 22°C, 0.95 bar. Refrigerant enters the tubes at 5 bar with a quality of 20% and exits at 5 bar, 20°C. Ignoring heat transfer at the outer surface of the air conditioner, and neglecting kinetic and potential energy effects, determine at steady state (a) the mass...
An insulated rigid vessel contains 5kg of saturated liquid-vapor mixture of Refrigerant- 134a at 200kPa. At this stage, one-fifth of the mass is in vapor phase and rest is in liquid. Now using an electrical resistance heater, heat is supplied to the contents of the vessel until all of the refrigerant is converted to saturated vapor. Show this process on a P v diagram with respect to saturation lines and determine, 1. volume of the rigid vessel 2. temperature, in...
QUESTIONS 1. Refrigerant-134a is cooled by water in a condenser. The refrigerant enters the condenser at a pressure of 1 MPa and a temperature of 70°C at a flow rate of 6 kg / min and exits at a temperature of 35 °C. Cooling water enters the condenser at 300 kPa pressure and 15 °C temperature and exits at 25 °C temperature. By neglecting pressure losses, Calculate; a) mass flow of cooling water b) the heat transfer from the refrigerant...
Show full work. The table referred to is attached.
Problem 3 6 marks] Use the provided data tables for R134a to answer this problem. A closed vessel contains refrigerant-134a with a vapor fraction (kg vapor/kg total) of 0.9 at -10C. If the contents are heated to a temperature of 70°C, determine: a) The initial pressure in the vessel. b) The mass of R134a in the system c) The amount of heat added. d) The final pressure.
Problem 3 Ten kilograms of refrigerant-134a fill a weighted piston-cylinder container with the volume of 1.595 mat a temperature of -26 C. The container is now heated until the temperature is 90 'C. Determine the final volume of the refrigerant-134a. R-134a -26°C 10 kg 1.595 m3
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...
Problem 7.023 SI As shown in the figure below, 1.25 kg of refrigerant R-134a is contained in a well-insulated piston-cylinder assembly fitted with an electrical resistor of negligible mass. The refrigerant is initially at 2 bar and a quality of 50%. The resistor is activated until the volume of the refrigerant doubles, while its pressure varies negligibly. Determine, in kJ (a) the amount of energy transfer by work to the piston and (b) the accompanying exergy transfer. (c) the amount...
5. Refrigerant-134a at 700kPa, 70°C, and 8 kg/min is cooled by air in a condenser until it exits as a saturated liquid at the same pressure. The cooling air enters the condenser at 1MPa and 10°C and leaves at 17°C at the same pressure. Determine: a) Considering only the Refrigerant as a system, the heat transfer rate of a refrigerant from the condenser in (kl/min). R-134a Tables are attached! b) The mass flow rate of the air required for cooling...
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