If there is a piston cylinder that only has boundary work involved. If also, it contains...

A piston cylinder device contains 5 kg of Refrigerant 134a at 800 kPa and 70 C....

A piston cylinder device contains 5 kg of Refrigerant 134a at 800 kPa and 70 C. The refrigerant is now cooled at constant pressure until it reaches a saturated vapor state. How much heat was lost in the process? Express your result in kJ and you may ignore the negative sign.

Entropy From Steam Tables A piston-cylinder assembly contain 2 kg of water. The water is initially...

Entropy From Steam Tables A piston-cylinder assembly contain 2 kg of water. The water is initially at the pressure of 0.5 MPa and the temperature of 300°C. The water is cooled down at constant pressure process until it is a saturated vapor. Determine the change in the entropy of the system.

A mass of one kg of water within a piston–cylinder assembly undergoes a constant-pressure process from...

A mass of one kg of water within a piston–cylinder assembly undergoes a constant-pressure process from saturated vapor at 500 kPa to a temperature of 260°C. Kinetic and potential energy effects are negligible. For the water: a) Evaluate the work, in kJ, b) If the work is 30 kJ, evaluate the heat transfer, in kJ, c) If the heat transfer is negligible, evaluate the entropy production in kJ/K d) Determine if the process is reversible, irreversible, or impossible.

Water, initially (state 1) a saturated liquid at 1100C, is contained in a piston-cylinder assembly. The...

Water, initially (state 1) a saturated liquid at 1100C, is contained in a piston-cylinder assembly. The water undergoes a process to the corresponding saturated vapor (state 2), during which the piston moves freely in the cylinder. If the change of state is brought about by heating the water as it undergoes an internally reversible process at constant pressure and temperature, determine (a) heat transfer using first law of thermodynamics in kJ/kg and (b) heat transfer using second law of thermodynamics...

Three kilograms (3.0 kg) of saturated steam at 162oC is held in a closed piston-cylinder apparatus...

Three kilograms (3.0 kg) of saturated steam at 162oC is held in a closed piston-cylinder apparatus with a weighted piston that exerts a constant force on the steam. The piston-cylinder apparatus loses energy to the surroundings such that at a certain point 50% of the steam has condensed to a saturated liquid inside the cylinder (NOTE: the vapor and liquid are still saturated at the new condition). a. For the process described above, determine the heat exchange with the surroundings....

A piston-cylinder device initially contains 75 g of saturated water vapor at 340 kPa . A...

A piston-cylinder device initially contains 75 g of saturated water vapor at 340 kPa . A resistance heater is operated within the cylinder with a current of 0.6 A from a 300 V source until the volume doubles. At the same time a heat loss of 7 kJ occurs. Part A)Determine the final temperature (T2). Part B)Determine the duration of the process. Part C) What-if scenario: What is the final temperature if the piston-cylinder device initially contains saturated liquid water?

A piston-cylinder contains 25 g of saturated water vapor and kept at 300 kPa. We add...

A piston-cylinder contains 25 g of saturated water vapor and kept at 300 kPa. We add to the saturated water vapor an amount of electrical work of 7.2 kJ (via a resistance heater). Simultaneously, we lose 3.7 kJ from the water. 1.Show the path on a PV diagram. 2.Determine the change in internal energy, the PV work, and the enthalpy of the system. 3.Determine the final temperature of the system

A piston-cylinder device with a set of stops initially contains 0.35 kg of steam at 1.0...

A piston-cylinder device with a set of stops initially contains 0.35 kg of steam at 1.0 MPa and 900 degrees C. The location of the stops corresponds to 44 percent of the initial volume. Now the steam is cooled. Determine the magnitude of the compression work if the final state is (A) 1.0 MPa and 600 degrees C and W=. kJ (B) 500 kPa. W=. kJ (C) Also determine the temperature at the final state in part (B). T2=. C

Atmospheric pressure is 100 kPa in a system of cylinders and pistons.The mass of the piston...

Atmospheric pressure is 100 kPa in a system of cylinders and pistons.The mass of the piston is 4 kg and the area of ​​the piston is 4.0 cm2. The following process takes place by external heat transfer. (Gravity acceleration is 10 m / s2). 1. Calculate the pressure inside the cylinder in kPa. 2. The cylinder contains 0.1 kg of water vapor, and the temperature of the water vapor is 150oC. Find the volume and internal energy of water vapor...

Frictionless piston-cylinder system. Initially contains 167 L of saturated liquid Refrigerant-134a. The piston can move freely...

Frictionless piston-cylinder system. Initially contains 167 L of saturated liquid Refrigerant-134a. The piston can move freely in such that it maintains pressure at 877 kPa, an Isobaric process. The Refrigerant-134a is heated until its temperature rises to 70 ℃ Determine: The work was done during the process in (kJ) units?