A fluid flowing along a pipeline undergoes a throttling process from 10 bar to 1 bar...

Nitrogen (N2) undergoes an internally reversible process from 6 bar, 247°C during which pν1.1 = constant....

Nitrogen (N2) undergoes an internally reversible process from 6 bar, 247°C during which pν1.1 = constant. The initial volume is 0.1 m3 and the work for the process is 50 kJ. Assuming ideal gas behavior, and neglecting kinetic and potential energy effects, determine heat transfer, in kJ, and the entropy change, in kJ/K. Q = kJ ΔS = kJ/K

A system of mass 10 kg undergoes a process during which there is no work, the...

A system of mass 10 kg undergoes a process during which there is no work, the elevation decreases by 50 m, and the velocity increases from 15 m/s to 50 m/s. The specific internal energy decreases by 5 kJ/kg and the acceleration of gravity is constant at 9.8 m/s2. Determine the change in kinetic energy, in kJ, and the amount of energy transfer by heat for the process, in kJ.

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...

A steel pipeline conveys water (density 1000 kg/m3 , bulk modulus 2.05x109 N/m2 ) from an...

A steel pipeline conveys water (density 1000 kg/m3 , bulk modulus 2.05x109 N/m2 ) from an upper to a lower reservoir the pipeline material is steel with Young’s modulus 210x109 N/m2 . It is 611 m long, has an internal diameter 1.1m, wall thickness 25 mm and surface roughness 0.68 mm. The flow is controlled by a valve located at the entrance to the lower reservoir, 211 m below the surface level in the upper reservoir. (a) Under steady flow...

Water undergoes a constant‐volume process within a piston–cylinder assembly from saturated liquid at 4 bar to...

Water undergoes a constant‐volume process within a piston–cylinder assembly from saturated liquid at 4 bar to a final pressure of 50 bar. Kinetic and potential energy effects are negligible. Determine the work and the heat transfer, each in kJ per kg of water. [7 points]

A gas undergoes a process in a piston–cylinder assembly during which the pressure-specific volume relation is...

A gas undergoes a process in a piston–cylinder assembly during which the pressure-specific volume relation is pv1.2 = constant. The mass of the gas is 0.4 lb and the following data are known: p1 = 160 lbf/in.2, V1 = 1 ft3, and p2 = 300 lbf/in.2 During the process, heat transfer from the gas is 2.1 Btu. Kinetic and potential energy effects are negligible. Determine the change in specific internal energy of the gas, in Btu/lb. Δu⁢=

1-kg of R-134a initially at 600 kPa and 25 °C undergoes a process during which the...

1-kg of R-134a initially at 600 kPa and 25 °C undergoes a process during which the entropy is kept constant until the pressure drops to 100 kPa. Determine the final temperature of the R-134a and the final specific internal energy.

1 mole of a gas undergoes a mechanically reversible isothermal expansion from an initial volume 1...

1 mole of a gas undergoes a mechanically reversible isothermal expansion from an initial volume 1 liter to a final volume 10 liter at 25oC. In the process, 2.3 kJ of heat is absorbed in the system from the surrounding. The gas follows the following formula: V=RTP+b where V is the molar specific volume, and Tand Pare temperature (abosolute) and gas pressure respectively. Given R= 8.314 J/(mol.K) and b= 0.0005 m3. Evaluate the following a) Work (include sign) b) Change...

A) 1 kg of air with a pressure of 13 bar and a temperature of 125...

A) 1 kg of air with a pressure of 13 bar and a temperature of 125 ° C is heated as isobar up to 550 ° C. a) Work done during heating, b) Internal energy and enthalpy change, c) Calculate the amount of heat consumed. (R = 287 j / kgK, x = 1,4) B) An ideal gas with a pressure of 1 bar and a volume of 0.5m³ is compressed isothermally up to 17 bar pressure. Calculate the volume...

1) A nozzle is a device for increasing the velocity of a steadily flowing stream of...

1) A nozzle is a device for increasing the velocity of a steadily flowing stream of fluid. At the inlet to a certain nozzle the enthalpy of the fluid is 3025 kJ/kg and the velocity is 60 m/s. At the exit from the nozzle the enthalpy is 2790 kJ/kg. The nozzle is horizontal and there is negligible heat loss from it. (i) Find the velocity at the nozzle exit. (ii) If the inlet area is 0.1 m2 and specific volume...