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Change in specific volume will decrease in nature ,kita will equal to 1.95778 *10^(-3) m^3 /Kg
Asper HomeworkLib policy we are helpless for 2nd part of the question we cannot use outside source of datas.sorry sir if you are update this question with chart and graph , i will 100% helpful for you.....
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Carbon dioxide (CO2) is initially at 11.09 MPa, 3300K and then is compressed to 430°K and...
Carbon dioxide (CO2) is initially at 11.09 MPa, 330°K and then is compressed to 430°K and...
Carbon dioxide (CO2) is initially at 11.09 MPa, 330°K and then is compressed to 430°K and 22.17 MPa. a Treating carbon dioxide as an ideal gas: Find the change in specific volume between the initial & final states Find the change in enthalpy between the initial & final states per kmol Find the change in entropy between the initial & final states per kmol b Treating carbon dioxide as a real gas: Use the generalized charts to determine the change...
A piston-cylinder contains 1.8 kg of carbon dioxide at 190°C and 1.7 MPa. It is compressed...
A piston-cylinder contains 1.8 kg of carbon dioxide at 190°C and 1.7 MPa. It is compressed t<o 3.4 MPa through a polytropic process whereP「--const. Determine the final temperature treating the carbon dioxide as (a) an ideal gas T2 and (b) a ver der Waals gas.
Calculate the change in enthalpy (ΔH) for 1.0 mol of carbon dioxide (CO2) initially at a...
Calculate the change in enthalpy (ΔH) for 1.0 mol of carbon dioxide (CO2) initially at a volume of 5.00 L and a temperature of 298 K to a final volume of 10.00 L and a temperature of 373 K. Explicitly state all assumptions along with a justification for any and all assumptions made. Express your answer in units of kilojoules per mole (kJ/mol). Assume an ideal gas.
Problem #4 Carbon dioxide is compressed adiabatically in a piston – cylinder arrangement form 500 kPa...
Problem #4 Carbon dioxide is compressed adiabatically in a piston – cylinder arrangement form 500 kPa and 310 K to 2.5 MPa. What is the minimum work required for the compression process if the initial volume is 0.04 m3 . Consider carbon dioxide as ideal gas with: a) constant specific heat. b) Variable specific heat.
An ideal gas mixture contains 4 moles of carbon dioxide and 8 moles of nitrogen. The...
An ideal gas mixture contains 4 moles of carbon dioxide and 8 moles of nitrogen. The mixture is compressed adiabatically from100kPa and 20°C to 0.5 MPa. What is the final temperature of the gas mixture? Use second law word, entropy change.
An equimolar gaseous mixture of CO2 and CH4 is at 37.8 C and 8.618 MPa. The partial molar volumes...
An equimolar gaseous mixture of CO2 and CH4 is at 37.8 C and 8.618 MPa. The partial molar volumes, 7,, of the components are o.176 and 0.288 m /Ikmol, respectively. The pure component specific volumes, v, are 0.0935 and 0.2668 m3/kmol, respectively Find: (a) The mixture molar volume, v (m/kmol) (b) The percent error using the ideal gas model for the mixture (c) The compressibility factor for the mixture. (d) The volume change of mixing (m/kmol).
An equimolar gaseous mixture...
Calculate the change in entropy for 5 moles of carbon dioxide gas as it is compressed...
Calculate the change in entropy for 5 moles of carbon dioxide gas as it is compressed isothermally from 20L to 5L at a temperature of 300K. Consider CO 2 is an (a) ideal gas (b) Van der Waals gas
A piston-cylinder arrangement contains Carbon dioxide (CO2) initially at 66 kPa and 400 K, undergoes an...
A piston-cylinder arrangement contains Carbon dioxide (CO2) initially at 66 kPa and 400 K, undergoes an expansion process with pressure-volume relationship of PV 1.2 = Costant.to a final temperature of 298 K. Assuming the gas to be an ideal gas, determine the final pressure (kPa), the work done and the heat transfer each in kJ.
I need help please! A mass of 1 kilograms of carbon dioxide (CO2) in a piston-cylinder...
I need help please! A mass of 1 kilograms of carbon dioxide (CO2) in a piston-cylinder assembly undergoes two processes in series from an initial state where p1 = 3 MPa, T1 = 204°C: Process 1–2: Constant-temperature expansion until the volume is twice the initial volume. Process 2–3: Constant-volume heating until the pressure is again 3 MPa. Assuming ideal gas behavior, determine the overall work, in kJ.
1) A piston-cylinder assembly containing a mass of 2 kilograms of carbon dioxide (CO2) undergoes two...
1) A piston-cylinder assembly containing a mass of 2 kilograms of carbon dioxide (CO2) undergoes two processes in series from an initial state where p1 = 4.8 MPa, T1 = 285°C: Process 1–2: Constant-temperature expansion until the volume is twice the initial volume. Process 2–3: Constant-volume heating until the pressure is again 4.8 MPa. Assuming ideal gas behavior, determine: (a) the pressure at state 2, in MPa, (b) the temperature at state 3, in °C, and (c) the overall work,...
Carbon dioxide (CO2) is initially at 11.09 MPa, 330°K and then is compressed to 430°K and 22.17 MPa. a Treating carbon dioxide as an ideal gas: Find the change in specific volume between the initial & final states Find the change in enthalpy between the initial & final states per kmol Find the change in entropy between the initial & final states per kmol b Treating carbon dioxide as a real gas: Use the generalized charts to determine the change...
A piston-cylinder contains 1.8 kg of carbon dioxide at 190°C and 1.7 MPa. It is compressed t<o 3.4 MPa through a polytropic process whereP「--const. Determine the final temperature treating the carbon dioxide as (a) an ideal gas T2 and (b) a ver der Waals gas.
An equimolar gaseous mixture of CO2 and CH4 is at 37.8 C and 8.618 MPa. The partial molar volumes, 7,, of the components are o.176 and 0.288 m /Ikmol, respectively. The pure component specific volumes, v, are 0.0935 and 0.2668 m3/kmol, respectively Find: (a) The mixture molar volume, v (m/kmol) (b) The percent error using the ideal gas model for the mixture (c) The compressibility factor for the mixture. (d) The volume change of mixing (m/kmol).
An equimolar gaseous mixture...
A piston-cylinder arrangement contains Carbon dioxide (CO2) initially at 66 kPa and 400 K, undergoes an expansion process with pressure-volume relationship of PV 1.2 = Costant.to a final temperature of 298 K. Assuming the gas to be an ideal gas, determine the final pressure (kPa), the work done and the heat transfer each in kJ.
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