A steady-state, steady-flow (Steady State Steady Flow) control volume (with single inflow and outflow) undergoes a...

13)  A turbine, operating under steady-flow conditions, receives 5000 kg of steam per hour. The steam enters...

13)  A turbine, operating under steady-flow conditions, receives 5000 kg of steam per hour. The steam enters the turbine at a velocity of 3000 m/min, an elevation of 5 m and a specific enthalpy of 2787 kJ/kg. It leaves the turbine at a velocity of 6000 m/min, an elevation of 1 m and a specific enthalpy of 2259 kJ/kg. Heat losses from the turbine to the surroundings amount to 16736 kJ/h. Determine the power output of the turbine. 14) 12 kg...

Air is contained in a rigid, well-insulated container of volume 3 m3. The air undergoes a...

Air is contained in a rigid, well-insulated container of volume 3 m3. The air undergoes a process from an initial state with a pressure of 200 kPa and temperature of 300 K. During the process, the air receives 720 kJ of work from a paddle wheel. Model the air as an ideal gas with constant specific heats. Evaluate the specific heats at 300 K. Neglect changes in kinetic energy and potential energy. Determine the mass of the air in kg,...

In a cylinder/piston arrangement, air is compressed in a reversible polytropic process to a final state...

In a cylinder/piston arrangement, air is compressed in a reversible polytropic process to a final state of 800 kPa, 500 K. Initially air is at 110 kPa and 25oC. During the compression process heat transfer takes place with the ambient maintained at 25oC. Assume air as an ideal gas (R =0.287 kJ/kg) and has constant specific heats of Cp = 1.004 kJ/kgK and Cv = 0.717 kJ/kgK. If the mass of air in the cylinder is 0.1286 kg, determine a)...

A piston-cylinder assembly containing 3 kg of an ideal gas undergoes a constant pressure process from...

A piston-cylinder assembly containing 3 kg of an ideal gas undergoes a constant pressure process from an initial volume of 48 m3 to a final volume of 30 m3 . During the process, the piston supplies 1.2 MJ of work to the gas. The gas has a constant specific heat at constant volume of 1.80 kJ/(kg∙K) and a specific gas constant of 1.48 kJ/(kg∙K). Neglect potential and kinetic energy changes. a. Determine the initial specific volume of the gas in...

Air at 1,373 K, 977 kPa expands in a polytropic process, n = 1.4, to a...

Air at 1,373 K, 977 kPa expands in a polytropic process, n = 1.4, to a final pressure of 218 kPa. Determine the specific entropy generation for this process, if the surroundings are maintained at 300 K. Provide your answer with 2 decimal places. b) any equations used in variable form, and with numbers and units c) v1, where "v" represents specific volume d) v2, where "v" represents specific volume e) P2 f)T2 g) 1w2 f) 1q2 g) change in...

Air at 277 oC and 1000 kPa enters a turbine operating at steady state with a...

Air at 277 oC and 1000 kPa enters a turbine operating at steady state with a mass flow rate of 70 kg/hr. It exits the turbine at 27 oC and 700 kPa. During this process heat is added from the surroundings at 77 oC to the turbine at a rate of 1000 kJ/hr. Using variable specific heats, determine whether this claim is correct. Justify your answer.

We have air in the piston that is undergoes 2 process in series. in the first...

We have air in the piston that is undergoes 2 process in series. in the first step. the air is compressed such a way that the process is described a polytropic where PVn = constant . The initial state of air is 100Kpa. 0.04m3/kg. the final specific volume at the end of first process is 0.02m3/kg. n= 1.3 in the second step. the air is subject to constant pressure process where the final specific volume is equal to the initial...

Carbon dioxide (CO2) gas in a piston-cylinder assembly undergoes three processes in series that begin and...

Carbon dioxide (CO2) gas in a piston-cylinder assembly undergoes three processes in series that begin and end at the same state (a cycle). Process 1–2: Expansion from state 1 where p1 = 10 bar, V1 = 1 m3, to state 2 where V2 = 4 m3. During the process, pressure and volume are related by pV1.5 = constant. Process 2–3: Constant volume heating to state 3 where p3 = 10 bar. Process 3–1: Constant pressure compression to state 1. Sketch...

Determine the final specific volume (m3/kg) for a gas undergoing a process from state 1 (T1...

Determine the final specific volume (m3/kg) for a gas undergoing a process from state 1 (T1 = 324 K, v1 = 0.2353 m3/kg) to a temperature of T2 = 883 K if s2 - s1 = 0.961 kJ/kg-K. Assume constant specific heats as given below (DO NOT USE the ideal gas tables). Cp = 1.135 kJ/kg-K Cv = 0.759 kJ/kg-K Note: Give your answer to four decimal places. Correct Answer: [Correct] 0.4006 ± 1% Please show your methodology.

Steam enters a control volume operating at steady state at 3 bar and 160 ◦ C...

Steam enters a control volume operating at steady state at 3 bar and 160 ◦ C with a volumetric flow rate of 0.5 m3 /s. Saturated liquid leaves the control volume through exit #1 with a mass flow rate of 0.1 kg/s, and saturated vapor leaves through exit #2 at 1 bar with a velocity of 5 m/s. Determine the area of exit #2, in m2 .