Determine a pipeline with a constant diameter, at the inlet flow is 8.5 MPa and the...

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...

Glycerol (1,260 kg/m3) flows into a 14.4 cm diameter, inlet pipe (a.k.a Zone 1) at a...

Glycerol (1,260 kg/m3) flows into a 14.4 cm diameter, inlet pipe (a.k.a Zone 1) at a pressure of 1.519 atm. The liquid then flows through a 6.9 cm diameter pipe at a pressure of 756.8 torr situated 1.4 m above the inlet pipe, a.k.a Zone 2. a) Calculate the flow speed of the Glycerol in Zone 2. b) Calculate the volume flow rate of the Glycerol in either Zone.

1. In a turbo jet engine, the momentum of the gases leaving the nozzle produces the...

1. In a turbo jet engine, the momentum of the gases leaving the nozzle produces the propulsive force. The enthalpy and velocity of the gases at the nozzle entrance are 1200 kJ/kg and 200 m/s respectively. The enthalpy of the gas at exit is 900 kJ/kg. If the heat loss from the nozzle is negligible, determine the velocity of the gas jet at exit from the nozzle. 2. For question 1, if the diameter of the nozzle at exit is...

Air enters a constant area combustion chamber at 100 m/s and 400 K. Determine the exit...

Air enters a constant area combustion chamber at 100 m/s and 400 K. Determine the exit conditions if the heat added is (a) 1000 kJ/kg and (b) 2000 kJ/kg. Also determine the ratio of mass flow rates between the two cases. Assume that the inlet stagnation conditions remain the same for the two cases . [1281 K, 0.67; 1941 K, 1; 1.233] please give answer correctly

The oil flows in a vertical pipe that has overall height of 30 m. The pressure...

The oil flows in a vertical pipe that has overall height of 30 m. The pressure at the inlet of the pipe (before the pump) and at the location of oil delivery at the end of the pipe are both atmospheric. Determine: 1- The head supplied to the flow by the pump. 2- The pressure at the exit of the pump. 2- The pressure at midway location of the pipe between    inlet and exit. Oil viscosity and density are...

nitrogen gas enters an adiabatic steady flow device at 0.20 MPa, 120 C with a velocity...

nitrogen gas enters an adiabatic steady flow device at 0.20 MPa, 120 C with a velocity of 16.57 m/s. At the exit, conditions are 2.40 MPa and 520 C. This device is a compressor or a turbine and kinetic and potential energies may be neglected. the inlet is a circular duct with a diameter of 12.00 cm. For nitrogen M=28. Find other properties in Table A-20. R = 8.314 1. Find the mass flow rate of the gas (kg/s) 2....

compressible flow: A subsonic flow of air passes through a pipe of 2.5-cm diameter which is...

compressible flow: A subsonic flow of air passes through a pipe of 2.5-cm diameter which is choked at the exit. At the pipe inlet, the stagnation pressure is 700 kPa and the stagnation temperature is 330 K. If f¯ = 0.022 and the pipe length is 12 m, what will be the mass flow rate through the pipe, in kg/sec?

Consider the flow of oil at 10?C in a 40-cm diameter pipeline at an average velocity...

Consider the flow of oil at 10?C in a 40-cm diameter pipeline at an average velocity of 0.5 m/s. A 1500-m long section of the pipeline passes through icy waters of a lake at 0?C. Disregarding the thermal resistance of the pipe material, determine (a) the temperature of the oil when the pipe leaves the lake (b) the rate of heat transfer from the oil and (c) the pressure losses in the pipe. Assume the flow is hydro-dynamically fully developed.

A pump is used to deliver water from a large reservoir to another large reservoir that...

A pump is used to deliver water from a large reservoir to another large reservoir that is 20 m higher. The inlet of the pipe is submerged in the one reservoir and the exit is just above the surface of the other reservoir. If the friction head loss in the 200-mm-diameter, 4-km-long pipeline is 2.5 m for every 500 m of pipe length, determine the required power output of the pump so the flow is 0.6 m3/s.

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....