Steam enters a diffuser at 250°C and 300kPa with an inlet velocity of 402 m/s. Steam...

Refrigerant-134a enters a diffuser steadily as saturated vapour at 600 kPa with a velocity of 160...

Refrigerant-134a enters a diffuser steadily as saturated vapour at 600 kPa with a velocity of 160 m/s, and it leaves at 700 kPa and 40°C. The refrigerant is gaining heat at a rate of 2 kJ/s as it passes through the diffuser : determine (a- the exit velocity (b- the mass flow rate of the refrigerant. If the exit area is twice the inlet area (A2=2A1),

Nitrogen gas at 60 kPa and 78C enters an adiabatic diffuser steadily with a velocity of...

Nitrogen gas at 60 kPa and 78C enters an adiabatic diffuser steadily with a velocity of 275 m/s and leaves at 85 kPa and 278C. Determine (a) the exit velocity of the nitrogen and (b) the ratio of the inlet to exit area A1/A2. Reconsider Using EES (or other) software, investigate the effect of the inlet veloc- ity on the exit velocity and the ratio of the inlet-to-exit area. Let the inlet velocity vary from 210 to 350 m/s. Plot...

Nitrogen gas at 50 kPa and 7°C enters an adiabatic diffuser steadily with a velocity of...

Nitrogen gas at 50 kPa and 7°C enters an adiabatic diffuser steadily with a velocity of 180 m/s and leaves at 109 kPa and 22°C. Determine (a) the exit velocity of the nitrogen and (b) the ratio of the inlet to exit area A1/A2

Air at 10º C and 80kPa enters the diffuser of a jet engine steadily with a...

Air at 10º C and 80kPa enters the diffuser of a jet engine steadily with a velocity of. 200 m/s. The inlet area of the diffuser is 0.5 m. 2 . The air leaves the diffuser with a velocity that is very small compared with the inlet velocity. Determine a).the mass flow rate of the air b).the temperature of the air leaving the diffuser.

Steam at 4.5 MPa and 500 C enters the turbine with a velocity of 60 m/s...

Steam at 4.5 MPa and 500 C enters the turbine with a velocity of 60 m/s and its mass flow rate is 5,000 kg/h. The steam leaves the turbine at a point 3m below the turbine inlet with a velocity of 350 m/s. The heat loss from the turbine is 100,000 kJ/hr and the shaft work produced is 950hp. A small portion of the exhaust steam from the turbine is passed through a throttling valve and discharges at atmospheric pressure....

Steam enters a control volume operating at steady state at 3 bar and 160 ◦ C...

Steam enters a control volume operating at steady state at 3 bar and 160 ◦ C with a volumetric flow rate of 0.5 m3 /s. Saturated liquid leaves the control volume through exit #1 with a mass flow rate of 0.1 kg/s, and saturated vapor leaves through exit #2 at 1 bar with a velocity of 5 m/s. Determine the area of exit #2, in m2 .

An unknown ideal gas enters a 25 cm-diameter pipe steadily at 250 kPa and 47C with...

An unknown ideal gas enters a 25 cm-diameter pipe steadily at 250 kPa and 47C with a velocity of 5 m/s. The ideal gas gains heat as it flows and leaves the pipe at 77C and 225 kPa. The gas constant of the ideal gas is R=0.285 kJ/kg.K. Determine: a) the volume flow rate at the inlet b) the mass flow rate c) the velocity at the exit

Steam enters a long, horizontal pipe with an inlet diameter of d1 = 16 cm at...

Steam enters a long, horizontal pipe with an inlet diameter of d1 = 16 cm at 2 MPa and 300 degrees Celsius with a velocity of 2.5 m/s. Farther downstream, the conditions are 1.8 MPa and 250 degrees Celsius, and the diameter is d2 = 14 cm. Determine (a) the mass flow rate of the steam and (b) the rate of heat transfer.

A supersonic diffuser with spike at inlet is design to operate at critical mode when it...

A supersonic diffuser with spike at inlet is design to operate at critical mode when it flying at Mach=2.8. The ambient pressure and temperature are 80kpa and 280 K respectively. If the diffuser inlet area is 0.35m2 and the diffusers exit velocity is 50 m/sec. Determine a) The mass flow rate pass through the diffuser.. b) The total stagnation pressure loss c) The diffuser exit area Ae, and the static pressure Pe. M=2.8, P=50??? angle 20 degree T∞=280 50m/sec

A steam turbine has inlet steam pressure p1 = 1.4 MPa absolute. Inlet steam temperature is...

A steam turbine has inlet steam pressure p1 = 1.4 MPa absolute. Inlet steam temperature is T1 = 400 oC. This corresponds to inlet enthalpy per unit mass of h1 = 3121 kJ/kg. Exit pressure of the steam is p2 = 101 kPa absolute. Exit steam temperature is T2 = 100 oC. This corresponds to exit enthalpy per unit mass of h2 = 2676 kJ/kg. Inlet speed of the steam is V1 = 15 m/s and exit speed is V2...