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Homework #8 Solution Manual Thermodynamics Moran and Shapiro

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These are the Solutions for the 8th homework. ENES232
10
ENES 232: Thermodynamics SOLUTIONS: Homework #8 Assigned: 3/11/13 Due: 3/25/13 Question #1 – Transient A rigid copper tank, initially containing 1 m 3 of air at 295K, 5 bar, is connected by a valve to a large supply line carrying air at 295K, 15 bar. The valve is opened only as long as required to fill the tank with air to a pressure of 15 bar, at which point the air in the tank is at 310K. The copper tank, which has a mass of 20 kg, is at the same temperature as the air in the tank, both initially and finally. The specific heat of the copper is c = 0.385 kJ/kg-K. Assuming ideal gas behavior for the air, determine (a) the initial and final mass of air within the tank, each in kg, and (b) the heat transfer to the surroundings from the tank and its contents, in kJ, ignoring kinetic and potential energy effects. (630)
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Page 1: Homework #8 Solution Manual Thermodynamics Moran and Shapiro

ENES 232: Thermodynamics SOLUTIONS: Homework #8

Assigned: 3/11/13

Due: 3/25/13 Question #1 – Transient A rigid copper tank, initially containing 1 m3 of air at 295K, 5 bar, is connected by a valve to a large supply line carrying air at 295K, 15 bar. The valve is opened only as long as required to fill the tank with air to a pressure of 15 bar, at which point the air in the tank is at 310K. The copper tank, which has a mass of 20 kg, is at the same temperature as the air in the tank, both initially and finally. The specific heat of the copper is c = 0.385 kJ/kg-K. Assuming ideal gas behavior for the air, determine (a) the initial and final mass of air within the tank, each in kg, and (b) the heat transfer to the surroundings from the tank and its contents, in kJ, ignoring kinetic and potential energy effects. (630)

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Question #2 – Transient Analysis A rigid tank having a volume of 0.1 m3 initially contains water as a two-phase liquid-vapor mixture at 1 bar and a quality of 1%. The water is heated in two stages: Stage 1: Constant-volume heating until the pressure is 20 bar. Stage 2: Continued heating while saturated water vapor is slowly withdrawn from the tank at a

constant pressure of 20 bar. Heating ceases when all of the water remaining in the tank is saturated vapor at 20 bar. For the water, evaluate the heat transfer, in kJ, for each stage of heating. Ignore KE and PE effects. (4204, 8725)

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Question #3 – Transient Analysis A vertical piston-cylinder arrangement contains 1 lbm of saturated water at a temperature of 300˚F and a quality of x = 0.5. A small hole in the piston allows saturated vapor to escape, resulting in the piston dropping slowly over time. The piston drops until it comes to rest on the remaining saturated liquid. Assuming a well-insulated system: a) What is the final mass of water in the system? b) How much of the original liquid remains? c) If the saturated vapor undergoes an adiabatic expansion to atmospheric pressure and 250˚F as it leaves the hole in the piston, what is its velocity? (0.5, 100, 756) Solution:

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Simplified solution (acceptable)

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