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Consider a piston cylinder process in air (as an ideal gas with constant specific heats) which...
An air-standard cycle is executed within a closed piston–cylinder system, and it consists of the following...
An air-standard cycle is
executed within a closed piston–cylinder system, and it consists of
the following three processes: 1–2 V = Constant heat addition from
100 kPa and 30°C to 850 kPa 2–3 Isothermal expansion until V3 =
8.5V2 3–1 P = Constant heat rejection to the initial state Assume
air has constant properties with cv = 0.718 kJ/kg·K, cp = 1.005
kJ/kg·K, R = 0.287 kJ/kg·K, and k = 1.4.
Required information An air-standard cycle is executed within a...
Required information An air-standard cycle is executed within a closed piston-cylinder system, and it consists of...
Required information An air-standard cycle is executed within a closed piston-cylinder system, and it consists of the following three processes: 1-2 V Constant heat addition from 100 kPa and 34°C to 850 kPa 2-3 Isothermal expansion until V3-8.5V2 3-1 P Constant heat rejection to the initial state Assume air has constant properties with cv 0.718 kJ/kg-K, Cp 1.005 kJ/kg-K, R- 0.287 kJ/kg-K, and k-1.4 Determine the cycle thermal efficiency. The cycle thermal efficiency is 10.266
1 kg air in a piston-cylinder assembly is heated at constant pressure, resulting the expansion of...
1 kg air in a piston-cylinder assembly is heated at constant pressure, resulting the expansion of the volume. The initial temperature of the air was 300 K, and the air temperature becomes 500 K after the expansion. What is the boundary work done by the air? Assume that air is an ideal gas with constant specific heats ( 0.718 v c = kJ/kg-K and 1.005 p c = kJ/kg-K)..
ASAP PROBLEM 2 (29pt): Air, which behaves as an ideal gas with constant specific heats (taken...
ASAP
PROBLEM 2 (29pt): Air, which behaves as an ideal gas with constant specific heats (taken as Cz»-1.005品.cv-0.718 ) undergoes a constant pressure process from 27°C and 2m to 227°C at 1MPa. kgk (a) What is the mass of the air? (b) What is the heat transfer of the air in [kJ]? Find (a)m Given (fill in missing information) State 1: State 2: Air Assumptions (fill in missing information) Air behaves as an ideal gas Cp1.005.Cy0.718 kJ kgK kJ Solution
A piston cylinder assembly fitted with a slowly rotating paddle wheel contains 0.13 kg of air...
A piston cylinder assembly fitted with a slowly rotating paddle wheel contains 0.13 kg of air at 300K. The air undergoes a constant pressure process to a final temp of 400K. During the process heat is transfered to the air by Q=12kJ. Assuming the ideal gas model with k=1.4 and negligible changes in kinetic and potential energy for the air, determine the work done by the paddle on the air and the work done by the air to displace the...
Air goes through a polytropic process in a piston/cylinder setup. The polytropic index is n. The...
Air goes through a polytropic process in a piston/cylinder setup. The polytropic index is n. The process starts at P1 kPa, T1 oC, and ends with a pressure of P2 kPa. Answer Questions 6-8 about this process, considering the given information in Question 6. Assume air to be an ideal gas. Let, n=1.5 P1=2.3 MPa T1= 8.9 ×102 °C P2=2.1 ×102 kPa Cp = 1.004 kJ/kg-K, Cv = 0.717 kJ/kg-K, R = 0.287 kJ/kg-K Find the final temperature, in oC...
Nitrogen in a piston cylinder device occupies 0.5 m3 at 100 kPa and 20 °C. It undergoes a compres...
Nitrogen in a piston cylinder device occupies 0.5 m3 at 100 kPa and 20 °C. It undergoes a compression process (during which PV1.30-constant) to a final state where the temperature is 200 °C. The specific heats are assumed to be constant while Tsur - 15 C a) Prove that the gas, at state 1, can be treated as an ideal gas. b) Find the pressure and volume at state 2 c) Find the heat transfer, in kJ. d) Find the...
An insulated piston-cylinder device contains 0.1m3 of air (ideal gas) at 400 kPa and 25℃. A...
An insulated piston-cylinder device contains 0.1m3 of air (ideal gas) at 400 kPa and 25℃. A paddle wheel within the cylinder is rotated until 15 kJ of work is done on the air while the pressure is held constant. Assuming the kinetic and potential energies are negligible and the gas constant and specific heat of air are ? = 0.287 kJ kg∙K and ?? = 1.005 kJ kg∙K . Tasks: ( a ) Determine the mass of air inside the...
Two kg of air as an ideal gas with constant properties expands inside a piston-cylinder device...
Two kg of air as an ideal gas with constant properties expands inside a piston-cylinder device from an initial state where P. - 200 kPa. T-7°C to a state where P2 - 100 kPa and T2- 327° (Assume cp = 1.003 kJ/Kg.K.cv -0.716 kJ/kg.K. and R=0.287 kJ/Kg.K). 3. The change in internal energy, in kJ, between the specified states is most nearly: -483 460 - 166 -241 -322 120 . 231 144
A piston-cylinder assembly contains air modeled as an ideal gas with a constant specific heat ratio,...
A piston-cylinder assembly contains air modeled as an ideal gas with a constant specific heat ratio, k = 1.4. The air undergoes a power cycle consisting of four processes in series: Process 1-2: Constant-temperature expansion at 600 K from p1 = 0.5 MPa to p2 = 0.4 MPa. Process 2-3: Polutropic expansion with n = k to p3 = 0.3 MPa. Process 3-4: Constant-pressure compression to V4 = V1. Process 4-1: Constant volume heating. Sketch the cycle on a p-v...
An air-standard cycle is
executed within a closed piston–cylinder system, and it consists of
the following three processes: 1–2 V = Constant heat addition from
100 kPa and 30°C to 850 kPa 2–3 Isothermal expansion until V3 =
8.5V2 3–1 P = Constant heat rejection to the initial state Assume
air has constant properties with cv = 0.718 kJ/kg·K, cp = 1.005
kJ/kg·K, R = 0.287 kJ/kg·K, and k = 1.4.
Required information An air-standard cycle is executed within a...
Required information An air-standard cycle is executed within a closed piston-cylinder system, and it consists of the following three processes: 1-2 V Constant heat addition from 100 kPa and 34°C to 850 kPa 2-3 Isothermal expansion until V3-8.5V2 3-1 P Constant heat rejection to the initial state Assume air has constant properties with cv 0.718 kJ/kg-K, Cp 1.005 kJ/kg-K, R- 0.287 kJ/kg-K, and k-1.4 Determine the cycle thermal efficiency. The cycle thermal efficiency is 10.266
ASAP
PROBLEM 2 (29pt): Air, which behaves as an ideal gas with constant specific heats (taken as Cz»-1.005品.cv-0.718 ) undergoes a constant pressure process from 27°C and 2m to 227°C at 1MPa. kgk (a) What is the mass of the air? (b) What is the heat transfer of the air in [kJ]? Find (a)m Given (fill in missing information) State 1: State 2: Air Assumptions (fill in missing information) Air behaves as an ideal gas Cp1.005.Cy0.718 kJ kgK kJ Solution
Nitrogen in a piston cylinder device occupies 0.5 m3 at 100 kPa and 20 °C. It undergoes a compression process (during which PV1.30-constant) to a final state where the temperature is 200 °C. The specific heats are assumed to be constant while Tsur - 15 C a) Prove that the gas, at state 1, can be treated as an ideal gas. b) Find the pressure and volume at state 2 c) Find the heat transfer, in kJ. d) Find the...
Two kg of air as an ideal gas with constant properties expands inside a piston-cylinder device from an initial state where P. - 200 kPa. T-7°C to a state where P2 - 100 kPa and T2- 327° (Assume cp = 1.003 kJ/Kg.K.cv -0.716 kJ/kg.K. and R=0.287 kJ/Kg.K). 3. The change in internal energy, in kJ, between the specified states is most nearly: -483 460 - 166 -241 -322 120 . 231 144
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