What pressure is generated when 1 kmol of methane is stored in a volume of 0.125...

Steam at 120 bars and 400°C is a real gas. Determine the specific volume, in m3/kg,...

Steam at 120 bars and 400°C is a real gas. Determine the specific volume, in m3/kg, by means of (a) the ideal-gas equation, (b) van der Waals' equation, (c) the Redlich-Kwong (RK) equation, (d) the two-parameter Z chart, and (e) the superheat table.

Use both the van der Waals and the Redlich-Kwong equations to calculate the molar volume of...

Use both the van der Waals and the Redlich-Kwong equations to calculate the molar volume of CO at 213 K and 1036 bar. (Take a = 1.4734 dm6·bar·mol−2 and b = 0.039523 dm3·mol−1 for the van der Waals equation and A = 17.208 dm6·bar·mol−2·K1/2 and B = 0.027394 dm3·mol−1 for the Redlich-Kwong equation.) Calculate the molar volume under the same conditions using the ideal-gas equation. Answer in dm3·mol−1.

Problem 11.003 SI The pressure within a 23.3-m3 tank should not exceed 105 bar. Determine the...

Problem 11.003 SI The pressure within a 23.3-m3 tank should not exceed 105 bar. Determine the pressure, in bar, within the tank if filled with 1000 kg of water vapor maintained at 600°C using the: (a) ideal gas equation of state. (b) van der Waals equation. (c) Redlich–Kwong equation. (d) steam tables.

) An ideal gas (Cp = 5 kcal/kmol, Cv = 3 kcal/kmol) is changed from 1...

) An ideal gas (Cp = 5 kcal/kmol, Cv = 3 kcal/kmol) is changed from 1 atm and 22.4 m3 to 10 atm and 2.24 m3 by the following reversible process     (i) Isothermal compression     (ii) Adiabatic compression followed by cooling at constant volume     (iii) Cooling at constant pressure followed by heating at constant volume Calculate the heat, work requirement, ?U and ?H for each process.                      

1 mole methane gas (NOT ideal gas) isothermally expands from initial pressure of 5 bar to...

1 mole methane gas (NOT ideal gas) isothermally expands from initial pressure of 5 bar to 1bar at 50oC. Estimate the ENTROPY change (?S) for the gas using Lee/Kesler generalized correlation tables

Calculate the pressure exerted by benzene for a molar volume of 2.4 L at 600. K...

Calculate the pressure exerted by benzene for a molar volume of 2.4 L at 600. K using the Redlich-Kwong equation of state: P=RTVm−b−aT√1Vm(Vm+b)=nRTV−nb−n2aT√1V(V+nb) The Redlich-Kwong parameters a and b for benzene are 452.0 bar dm6 mol−2 K1/2 and 0.08271 dm3 mol−1, respectively. Is the attractive or repulsive portion of the potential dominant under these conditions?

4. Calculate the volume of 1 mole ethylene at 100bar, 400k based on each of following...

4. Calculate the volume of 1 mole ethylene at 100bar, 400k based on each of following a). the ideal gas equation b). the generalized compressibility-factor correlation c). the generalized correlation for the second virial coefficient

A 5 m3 tank farm gas storage tank contains methane. The initial temperature and pressure are...

A 5 m3 tank farm gas storage tank contains methane. The initial temperature and pressure are P = 1 bar, T = 18 0C. The PVT properties of methane can be described by van der Waals equation of state For methane Pc = 45.8 atm and Tc =190.7 K. Calculate the T and P following each of the successive steps. (a) 1 m3 (at standard conditions) is withdrawn isothermally. (b) The sun warms the tank to 40 0C. (c) 1.2...

Problem 7.24 A sample containing 42.1 g of Ar is enclosed in a container of volume...

Problem 7.24 A sample containing 42.1 g of Ar is enclosed in a container of volume 8.77×10−2 L at 375 K. Part A Calculate P using the ideal gas equation of state. Express your answer with the appropriate units. Part B Calculate P using the van der Waals equation of state. Express your answer with the appropriate units. Part C Calculate P using the Redlich-Kwong equation of state. Express your answer with the appropriate units.

Let's say you completely boil 3.96 kg of rubbing alcohol at constant air pressure 99.7 kPa....

Let's say you completely boil 3.96 kg of rubbing alcohol at constant air pressure 99.7 kPa. What will be the resulting volume of vapor, in m3, assuming it behaves like an ideal gas? (Possibly useful: density of rubbing alcohol: 0.786 kg/liter, molar mass of rubbing alcohol: 60.1 kg/kmol, gas constant R = 8.314 kJ K−1 kmol−1. Beware K vs °C, Pa vs kPa, g vs kg, mol vs kmol, etc.)