Explanation The initial pressure of two-phase liquid-vapor P i = 200 lbf/in 2 The final temperature of two-phase liquid-vapor T f = 480 ° F Quality of two-phase liquid-vapor x = 0.8 Use saturated water table at P i = 200 lbf/in 2 u f i = 354 .78 Btu/lb u f g i = 759.32 Btu/lb u g i = 1114.1 Btu/lb h f i = 355.46 Btu/lb h f g i = 843.33 Btu/lb h g i = 1198.8 Btu/lb Use the formula for quality to calculate the enthalpy and internal energy of the two-phase liquid-vapor mixture. u i = u f i + x u f g i u i = 354.78 Btu/lb + 0.8 759.32 Btu/lb u i = 962.236 Btu/lb h i = h f i + x h f g i h i = 355.46 Btu/lb + 0.8 843.33 Btu/lb h i = 1030.124 Btu/lb The final pressure is equal to the initial pressure because the mixture is heated at a constant pressure P f = P i P f = 200 lbf/in 2 Use a superheated water table at P f = 200 lbf/in 2 and T f = 480 ° F . It is calculated by interpolation. @ P f = 200 lbf/in 2 & T = 450 °F u g = 1123.5 Btu/lb h g = 1210.9 Btu/lb And, @ P f = 200 lbf/in 2 & T = 500 °F u g = 1146

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1. Calculate the kinetic energy of a body that has a mass of 5 kg and velocity of 10 m/s.2. In a non-flow process carried out 5.4 kg substance, there was a specified internal energy decrease of50 kJ/kg and a work transfer of the substance of 8.5 kJ/kg. Determine the heat transfer and a statewhether it is gain or loss.3. A gas is contained in a cylinder with a moveable piston on which a heavy block is placed. Suppose theregion outside the chamber is evacuated and the total mass of the block and the movable piston is102 kg. When 2140 J of heat flows into the gas, the internal energy of the gas increases by 1580 J.what is the distance through which the piston rises?4. Calculate the increase in internal energy of a gas in a closed system during a process in which 100 Jof heat is supplied to the system and 400 J of work is produce.5. Convert the following readings of pressure to kPa, assuming the barometer reads 760 mm Hg. a. 90 cm Hg gaugeb. 40 cm Hg vacuumc. 1.2 m H20 gauge 6. A creature…

Energy transfer for which the sole effect on everything external to the system could have been the raising of a weight.

3.76 A system consisting of 2 kg of ammonia undergoes a cycle composed of the following processes: Process 1-2: Constant volume from P1 = 10 bar, =0.6 to saturated vapor. Process 2-3: Constant temperature to P3 = P1. Q3= +228 kJ. Process 3-1: Constant pressure. Sketch the cycle on p-v and T-u diagrams. Neglecting kinetic and potential energy effects, determine the net work for the cycle and the heat transfer for each process, all in kl.

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Energy transfer for mass m = 2 lb in problem 3.22 .

Solution Summary: The author explains the formula for quality to calculate the enthalpy and internal energy of the two-phase liquid-vapor mixture.

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Energy transfer for mass m=2 lb in problem 3.22 .

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