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Question # 3 (35pts) 50kg/s of air steadily enter a diffuser at a velocity of 750m/s...
Air at 12.7psia and 72oF enters an adiabatic diffuser steadily with a velocity of 775 ft/s...
Air at 12.7psia and 72oF enters an adiabatic diffuser steadily with a velocity of 775 ft/s and leaves with a low velocity at a pressure of 14.2 psia. The exit area of the diffuser is 3 times in the inlet area. Determine (a) the exit temperature and (b) the exit velocity of the air. Please show work for interpolation.
Air at 0.8 bar and 127 Centers an adiabatic diffuser steadily at a rate of 6000...
Air at 0.8 bar and 127 Centers an adiabatic diffuser steadily at a rate of 6000 kg/ h and leaves at 1 bar. The velocity of the air stream is decreased from 230 m/st 0 30 m/s as it passes through the diffuser. Find (a) the exit temperature of the ai rand (b) the exit area of the diffuser.
Air at 0.8 bar and 127 Centers an adiabatic diffuser steadily at a rate of 6000...
Air at 0.8 bar and 127 Centers an adiabatic diffuser steadily at a rate of 6000 kg/ h and leaves at 1 bar. The velocity of the air stream is decreased from 230 m/st 0 30 m/s as it passes through the diffuser. Find (a) the exit temperature of the ai rand (b) the exit area of the diffuser.
Air at 10°C and 80 kPa (static values) enters the diffuser of a jet engine steadily...
Air at 10°C and 80 kPa (static values) enters the diffuser of a jet engine steadily with a velocity of 200 m/s. The inlet area of the diffuser is 0.4 m2. The air leaves the diffuser with a velocity of 40 m/s. Calculate 1) air density 2) air mass flow 3) inlet stagnation temprature 4) Inlet stgnation enthelpy 5) Outlet static temprature T2 a. 0.98 kg/m3 b. 1.01 kq/m3 c. 1.33 kg/m3 d. 90.1 kg/s e. 88.3 kg/m3 78.8 kg/m3...
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....
Nitrogen gas at 60 kPa and 7°C enters an adiabatic diffuser steadily with a velocity of...
Nitrogen gas at 60 kPa and 7°C enters an adiabatic diffuser steadily with a velocity of 200 m/s and leaves at 85 kPa and 22°C. Determine (a) the exit velocity of the nitrogen and (b) the ratio of the inlet to exit area A1/A2. Why in this question we ignore the value of mass flow rate ?
Air steadily enters the diffuser section of a jet engine at a velocity of 270 m/s...
Air steadily enters the diffuser section of a jet engine at a velocity of 270 m/s at 85 kPa and at 250 °C. There is heat addition from the diffuser walls to the air. The air exits the diffuser at 1/3 of its inlet velocity. The heat addition per kg air entering the diffuser is 13 kJ/kg. What is the change in the specific enthalpy of the air (kJ/kg)?
At the inlet of a conical diffuser, the air velocity, C1 = 150 m/s, static pressure,...
At the inlet of a conical diffuser, the air velocity, C1 = 150 m/s, static pressure, P1 = 100 kPa and static temperature, T1 = 280 K. The entry and exit diameters of the diffuser are 10 cm and 15 cm respectively. The value of the diffuser efficiency is 0.90, defined as _Tzs - T NDT.-T Calculate the exit velocity, C2, P2 and APO. NOTE: This problem also reviews the use of the isentropic flow tables covered in MECH-3220 (06-92-320)...
Air enters a diffuser with a velocity of 900km/hr and at 0 C and 50 kPa....
Air enters a diffuser with a velocity of 900km/hr and at 0 C and 50 kPa. It leaves at 80 m/sec. If the exit area exceeds the inlet one by 20% * The exit temperature (C) is.1 22.9 9.22 2.29 92.2 * The exit pressure (kPa) is.2 14.42 143.8 22.93 100.0 O
Air enters a diffuser with a velocity of 900km/hr and at 0 C and 50 kPa....
Air enters a diffuser with a velocity of 900km/hr and at 0 C and 50 kPa. It leaves at 80 m/sec. If the exit area exceeds the inlet one by 20% 1. The exit temperature (C) is * O 2.29 9.22 22.9 O O O O O 92.2 9 This is a required question 2. The exit pressure (kPa) is* O 100.0 o 22.93 оооо O 143.8 O 14.42
Air at 0.8 bar and 127 Centers an adiabatic diffuser steadily at a rate of 6000 kg/ h and leaves at 1 bar. The velocity of the air stream is decreased from 230 m/st 0 30 m/s as it passes through the diffuser. Find (a) the exit temperature of the ai rand (b) the exit area of the diffuser.
Air at 0.8 bar and 127 Centers an adiabatic diffuser steadily at a rate of 6000 kg/ h and leaves at 1 bar. The velocity of the air stream is decreased from 230 m/st 0 30 m/s as it passes through the diffuser. Find (a) the exit temperature of the ai rand (b) the exit area of the diffuser.
Air at 10°C and 80 kPa (static values) enters the diffuser of a jet engine steadily with a velocity of 200 m/s. The inlet area of the diffuser is 0.4 m2. The air leaves the diffuser with a velocity of 40 m/s. Calculate 1) air density 2) air mass flow 3) inlet stagnation temprature 4) Inlet stgnation enthelpy 5) Outlet static temprature T2 a. 0.98 kg/m3 b. 1.01 kq/m3 c. 1.33 kg/m3 d. 90.1 kg/s e. 88.3 kg/m3 78.8 kg/m3...
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....
At the inlet of a conical diffuser, the air velocity, C1 = 150 m/s, static pressure, P1 = 100 kPa and static temperature, T1 = 280 K. The entry and exit diameters of the diffuser are 10 cm and 15 cm respectively. The value of the diffuser efficiency is 0.90, defined as _Tzs - T NDT.-T Calculate the exit velocity, C2, P2 and APO. NOTE: This problem also reviews the use of the isentropic flow tables covered in MECH-3220 (06-92-320)...
Air enters a diffuser with a velocity of 900km/hr and at 0 C and 50 kPa. It leaves at 80 m/sec. If the exit area exceeds the inlet one by 20% * The exit temperature (C) is.1 22.9 9.22 2.29 92.2 * The exit pressure (kPa) is.2 14.42 143.8 22.93 100.0 O
Air enters a diffuser with a velocity of 900km/hr and at 0 C and 50 kPa. It leaves at 80 m/sec. If the exit area exceeds the inlet one by 20% 1. The exit temperature (C) is * O 2.29 9.22 22.9 O O O O O 92.2 9 This is a required question 2. The exit pressure (kPa) is* O 100.0 o 22.93 оооо O 143.8 O 14.42
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