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dtioh before Problemt vapor at 200 kPa. mixing it with saturated water Cold liquid water T,...
Water at 50°F and 20 psia is heated in a chamber by mixing it with saturated water vapor at 20 psia. If both streams enter the mixing chamber at the same mass flow rate, determine the quality of the exiting stream to 3 significant digits (don't forget a leading o if needed). Mixing section
Liquid water at 300 kPa and 25°C is heated in a chamber by mixing it with steam at 300 kPa and 200°C as in the figure below. Liquid water enters the chamber at a rate of 3.0 kg/s, and the chamber is estimated to lose heat to the surrounding air at 25°C at a rate of 35 kW. If the mixture leaves the mixing chamber at 300 kPa and 120°C, establish: a. Mass flow rate of the superheated steam, kg/s...
Liquid water at 300 kPa and 20°C is heated in a chamber by mixing it with hot water at 300 kPa and 90°C. Cold water enters the chamber at a rate of 1.8 kg/s. If the mixture leaves the mixing chamber at 60°C, determine the mass flow rate of the hot water required
A mixing chamber operates steadily at 200 kPa with 2 kg/s of saturated liquid H2O mixing with 1 kg/s of superheated steam at 250°C. Determine the exit specific enthalpy and exit temperature if the heat transfer rate into the mixing chamber is 150 kW throughout this process. Note: I know how to solve for the exit specific enthalpy, but I am not sure how to solve for the exit Tempurature. Could you please show me how to solve for the...
A hot-water stream at 80°C enters a mixing chamber with a mass flow rate of 0.56 kg/s where it is mixed with a stream of cold water at 20°C. If it is desired that the mixture leave the chamber at 42°C, determine the mass flow rate of the cold-water stream. Assume all the streams are at a pressure of 250 kPa. The enthalpies are 335.02 kJ/kg, 83.915 kJ/kg, and 175.90 kJ/kg. The saturation temperature at a pressure of 250 kPa...
1: A hot-water stream at 95°C enters a mixing chamber where it is mixed with a stream of cold water at 25°C. Assume all the streams are at a pressure of 350 kPa. It is desired that the mixture with a mass flow rate of 0.7 kg/s leaves the chamber at 39°C. Each enthalpy is given by hi hf@95°c = 350 kJ/kg h2 z hr@25°C = 83 kJ/kg h = hf@ 39°C = 175 kJ/kg a. Write down the mass...
2.(40 pts.) A mixing chamber is used to heat liquid water to a saturated vapor by adding superheated steam. The liquid water enters through Line 1 at 1 MPa, a temperature of 100 C and a mass flow rate of 2 kg/s. The superheated steam enters through Line 2 at 1 MPa and 400°C. The combined stream exits through Line 3 as a saturated vapor at 1 MPa. The chamber also receives 3 MW of heat transferred from an external...
Liquid water at 20ºC, 100 kPa enters one inlet of an open-feedwater heater (a mixing chamber) with a flowrate of 0.5 kg/s. Superheated vapor at 200ºC is added at the other inlet. Determine the mass flowrate (in kg/s) of water vapor that must be added to produce a liquid-vapor mixture with a quality of 75% at the exit.
In a well-insulated rigid tank which contains 2 kg of a saturated liquid-vapor mixture of water at 200 kPa, 40% of the mass is in the liquid phase. A heater is providing heat to the content of the tank so that all liquid phase converts to vapor phase. Calculate the entropy change of water in this process.
Can saturated water vapor at 200 kPa be condensed to a saturated liquid in an isobaric, closed system process while only exchanging heat with an isothermal energy reservoir at 90 C? (Hint: Determine the entropy generation.) please include given and schematic please