In an adiabatic mixing chamber, 10 kg/s of water at 200 kPa and 30 C are...

Water is heated in a mixing chamber by mixing it with hot water coming from a...

Water is heated in a mixing chamber by mixing it with hot water coming from a heater. The mixing chamber loses heat to the surroundings at a rate of 5 kW. The hot water enters the mixing chamber at a rate of 1 kg/s. The mixed water leaves the chamber fully mixed. - The cold water enters the mixing chamber at 200 kPa and 20°C at a velocity of 3 m/s - The hot water enters at a pressure of...

. An adiabatic heat exchanger receives 3 kg/s of R12 as a saturated vapor at 960...

. An adiabatic heat exchanger receives 3 kg/s of R12 as a saturated vapor at 960 kPa and condenses it to a saturated liquid at this pressure.   The cooling water at 100 kPa enters the heat exchanger at 20 C and leaves at 35 C.   Determine the heat transfer to the water in kW and the water flowrate in kg/s.   385.6 kW    6.09 kg/s

An adiabatic counterflow heat exchanger receives 0.3 m3/s of saturated steam vapor at 200 kPa and...

An adiabatic counterflow heat exchanger receives 0.3 m3/s of saturated steam vapor at 200 kPa and condenses it to a saturated liquid on the shell side.   Water enters the tubes at 25 C and leaves at 40 C.   Determine the second law efficiency for the heat exchanger.

Liquid water at 293 K and 1.8 kg/s is mixed with steam at 573K in a...

Liquid water at 293 K and 1.8 kg/s is mixed with steam at 573K in a heating chamber. The water leaves the chamber at 300 kPa and 333K. Determine the mass flow rate of the steam. Where it exists in such a state, you may assume compressed liquid to have the same properties as saturated liquid at that temperature.

A power plant uses an adiabatic single-flash process coupled with a liquid-vapor separator and a turbine....

A power plant uses an adiabatic single-flash process coupled with a liquid-vapor separator and a turbine. (1) Flash Chamber (2) Seperator (3) Steam Turbine. Saturated liquid water enters the flash chamber (which behaves like a throttling valve) at 230 degrees C at a rate of 44 kg/s and leaves at a pressure of 700 kPa. The stream then enters the separator where the liquid is collected at the bottom of the unit while the vapor portion of the stream continues...

a hot water ar 80°C is mixed with cold water at 20°C in a mixing chamber...

a hot water ar 80°C is mixed with cold water at 20°C in a mixing chamber operating under adiabotic conditions. Flow rate of the cold water is 15.0 kg/s. The outlet stream is warm water at 45°C and 100 kPa. Estimate the flow rate of the hot water.

Steam enters an adiabatic turbine at 5 MPa and 700°C at a rate of 18.6 kg/s....

Steam enters an adiabatic turbine at 5 MPa and 700°C at a rate of 18.6 kg/s. The steam leaves the turbine at 50 kPa and 200°C. What is the rate of work produced by the turbine in MW? What is the rate of change of entropy of the steam during this process in kW/K? If the turbine is reversible and adiabatic and the steam leaves at 50 kPa, what is the rate of work produced by this turbine in MW?...

Steam enters an adiabatic turbine at 140 bar and 560 C and leaves at 10 kPa....

Steam enters an adiabatic turbine at 140 bar and 560 C and leaves at 10 kPa. At the exit, the pressure and quality are 50 KPa and .90, respectively. Determine the power produced (kW) by the turbine if the mass flow rate is 1.63 kg/s.

Water at 80°C enters a mixing chamber through line A, with a mass flow of 0.48...

Water at 80°C enters a mixing chamber through line A, with a mass flow of 0.48 kg / s. there it is mixed with another stream of water at 20°C, which flows through line B. If you want the mixture to leave the mixing chamber at 40°C (through line C), determine if all the streams are at 250 kPa , a) The volumetric expenditure (m ^ 3 / s) of the water circulating through pipe 2. b) The mass consumption...

Consider a mixing chamber where two separate streams of fluid mix and then exit as a...

Consider a mixing chamber where two separate streams of fluid mix and then exit as a single stream. One of the stream that enters the mixing chamber is superheated steam at 5 bar and 2000C. The other stream that enters the mixing chamber is a liquid water at 5 bars and 400C. The two streams mix in the mixing chamber and exit as a single stream. The single stream that exits is saturated liquid at 5 bar. Determine the ratio...