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Water vapor enters a diffuser at a pressure of 0.7 bar, a temperature of 160°C, and...
THERMO: QUESTION 5 Saturated water vapor at 12.92 bar enters an insulated throttling valve which drops...
THERMO: QUESTION 5 Saturated water vapor at 12.92 bar enters an insulated throttling valve which drops the pressure to 1.50 bar. Determine the temperature (oC) of the steam at the exit of the valve. Note: Give your answer to two decimal places. QUESTION 6 Air enters an adiabatic diffuser at 320 K and 100 kPa with a velocity of 665.4 m/s. At the diffuser exit, the temperature is 520 K. Determine the velocity (m/s) at the exit of the diffuser....
Water enters a diffuser at 80°C and 500 kPa with velocity of 100 m/s. It leaves...
Water enters a diffuser at 80°C and 500 kPa with velocity of 100 m/s. It leaves the diffuser at 150°C and 700 kPa. The ratio of the inlet to exit area (A/A) is 0.5. Calculate the heat transfer to the water during the process in kJ/kg. [10 Marks)
Water enters a diffuser at 80°C and 500 kPa with velocity of 100 m/s. It leaves...
Water enters a diffuser at 80°C and 500 kPa with velocity of 100 m/s. It leaves the diffuser at 150°C and 700 kPa. The ratio of the inlet to exit area (A/A2) is 0.5. Calculate the heat transfer to the water during the process in kJ/kg. [10 Marks]
A) Steam enters a horizontal pipe operating at steady state with a specific enthalpy of 2,663 kJ/...
A) Steam enters a horizontal pipe operating at steady state with a specific enthalpy of 2,663 kJ/kg and a mass flow rate of 0.1 kg/s. At the exit, the specific enthalpy is 1,531 kJ/kg. If there is no significant change in kinetic energy from inlet to exit, determine the rate of heat transfer between the pipe and its surroundings, in kW. B) Refrigerant 134a enters a horizontal pipe operating at steady state at 40°C, 3.1 bar and a velocity of...
Refrigerant-134a enters a diffuser as saturated vapor at 800kpa with a velocity of 120m/s, and leaves...
Refrigerant-134a enters a diffuser as saturated vapor at 800kpa with a velocity of 120m/s, and leaves the device at 900kpa and 40^C. The R-134a is gaining energy by heat transfer at a rate of 2kW as it passes through the diffuser. If the exit area is 80% greater than the inlet area, determine the exit velocity m/s, and the mass flow rate kg/s.
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
thermodynamics 2) Superheated water vapor flows into a diffuser operating at steady state conditions. At the...
thermodynamics
2) Superheated water vapor flows into a diffuser operating at steady state conditions. At the inlet the steam temperature is 300F, its pressure is 14.7 psi and its velocity is 500 ft/sec. The steam exits the diffuser at 60 psi, saturated vapor with negligible velocity. There is no significant change in potential energy. Determine the Heat Transfer from the surroundings to the Diffuser, Btu/lbm Include in your answer: a) Schematic b) Given-data table c) Engineering Model d) T-v Diagram...
Fundamentals-of-Compressible-Fluid-Dynamics Balachandran CHAPTER 4 6. A conical diffuser of 15 cm...
Fundamentals-of-Compressible-Fluid-Dynamics Balachandran CHAPTER 4 6. A conical diffuser of 15 cm has an area ratio of 4. If the pressure, temperature and velocity at the inlet section are 0.69 bar, 340 K and 180 m/s, estimate the exit pressure and exit velocity. What will be the change in impulse function. [Ans. p2 = 0.8074 bar; V2 = 45 m/s; F2 - F1 = 4167.5 N] 7. The Mach number at inlet and exit of a supersonic diffuser are 3 and...
Air at 10 degree C and 80 kPa enters the diffuser of a jet engine steadily...
Air at 10 degree C and 80 kPa enters the diffuser of a jet engine steadily with a velocity of 200 m/s. The inlet area of the diffuser is 0.4 m^2.The air leaves the diffuser with a velocity that is very small compared with the inlet velocity. Determine the mass flow rate of the air and the temperature of the air leaving the diffuser. Air at 100 kPa and 280 K is compressed steadily to 600 kPa and 400 K....
Water is the working fluid in a Carnot vapor power cycle. Saturated liquid enters the boiler...
Water is the working fluid in a Carnot vapor power cycle.
Saturated liquid enters the boiler at a pressure of 160 bar, and
saturated vapor enters the turbine. The condenser pressure is 0.08
bar. Determine
(a) the thermal efficiency.
(b) the back work ratio.
(c) the heat transfer to the working fluid per
unit mass passing through boiler, in kJ/kg.
(d) the heat transfer from the working fluid per
unit mass passing through the condenser, in kJ/kg.
Problem 8.03 Water...
Water enters a diffuser at 80°C and 500 kPa with velocity of 100 m/s. It leaves the diffuser at 150°C and 700 kPa. The ratio of the inlet to exit area (A/A) is 0.5. Calculate the heat transfer to the water during the process in kJ/kg. [10 Marks)
Water enters a diffuser at 80°C and 500 kPa with velocity of 100 m/s. It leaves the diffuser at 150°C and 700 kPa. The ratio of the inlet to exit area (A/A2) is 0.5. Calculate the heat transfer to the water during the process in kJ/kg. [10 Marks]
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
thermodynamics
2) Superheated water vapor flows into a diffuser operating at steady state conditions. At the inlet the steam temperature is 300F, its pressure is 14.7 psi and its velocity is 500 ft/sec. The steam exits the diffuser at 60 psi, saturated vapor with negligible velocity. There is no significant change in potential energy. Determine the Heat Transfer from the surroundings to the Diffuser, Btu/lbm Include in your answer: a) Schematic b) Given-data table c) Engineering Model d) T-v Diagram...
Air at 10 degree C and 80 kPa enters the diffuser of a jet engine steadily with a velocity of 200 m/s. The inlet area of the diffuser is 0.4 m^2.The air leaves the diffuser with a velocity that is very small compared with the inlet velocity. Determine the mass flow rate of the air and the temperature of the air leaving the diffuser. Air at 100 kPa and 280 K is compressed steadily to 600 kPa and 400 K....
Water is the working fluid in a Carnot vapor power cycle.
Saturated liquid enters the boiler at a pressure of 160 bar, and
saturated vapor enters the turbine. The condenser pressure is 0.08
bar. Determine
(a) the thermal efficiency.
(b) the back work ratio.
(c) the heat transfer to the working fluid per
unit mass passing through boiler, in kJ/kg.
(d) the heat transfer from the working fluid per
unit mass passing through the condenser, in kJ/kg.
Problem 8.03 Water...
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