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

Calculate the volume for n-butane at 313.28℃ and 75.92 bar according to: 1. The ideal gas...

Calculate the volume for n-butane at 313.28℃ and 75.92 bar according to: 1. The ideal gas equation 2. The theorem of corresponding states 3. Generalised correlation for the Compressibility factor 4. Generalised correlation for the Second virial coefficient.

A gas mixture which consists of ethylene (1)/propylene (2) with propylene mole fraction 0.65 has been...

A gas mixture which consists of ethylene (1)/propylene (2) with propylene mole fraction 0.65 has been stored in a closed vessel system at temperature of 320 oF and pressure 3 MPa. Using generalized correlation for the fugacity coefficient, calculate the followings: a) Determine the fugacity coefficient for propylene in the gas mixture. b) Estimate fugacity (bar) for ethylene in the gas mixture.

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

What pressure is generated when 1 kmol of methane is stored in a volume of 0.125 m3 at 50°C (323.15 K)? Base calculation on each of the following: (a) The ideal gas equation (b) The Redlich/Kwong equation (c) A generalized correlation

One mole of ethylene at 1 bar and 25C is placed inside a frictionless piston-cylinder device....

One mole of ethylene at 1 bar and 25C is placed inside a frictionless piston-cylinder device. The gas is then subjected to a two-step process: (1) by keeping the piston fixed with a lacking mechanism, 25KJ of heat is added via an electrical heater; and (2)the locking mechanism is then released and 15KJ of heat is removed. The second step of the process takes placed at constant pressure. Assuming ethylene is an ideal gas, determine the following: (a) The temperature...

The measured volumetric flow rate of ethane at 10.0 atm absolute and 35 ̊C is 1.00×103...

The measured volumetric flow rate of ethane at 10.0 atm absolute and 35 ̊C is 1.00×103 L/h. Using an estimated value of the second virial coefficient in the truncated virial equation of state, (a) calculate molar volume, ?̂ (L/mol) (b) estimate the compressibility factor, z; (c) determine the mass flow rate of ethane in kg/h.

Calculate the second Virial coefficient (B2) of Methane at 300 K from its van der Waals...

Calculate the second Virial coefficient (B2) of Methane at 300 K from its van der Waals constants: a0.2283 Pa m^6 mol^-2 and b = 0.0428x 10 ^-3 m^3 mol^-1. Calculate the compressibility factor at 300 K and 1 bar.

(1). What is the volume of one mole of hydrogen gas at 273 K and 760...

(1). What is the volume of one mole of hydrogen gas at 273 K and 760 torr? (2). What is the volume of one mole of oxygen gas under the same conditions? (3). What does this suggest concerning the ideal gas law? (4). Show how Boyle's and Charles' laws may be derived from the ideal gas law.

Calculate V and Z for methyl chloride at 100 ° C and 55bar for the ideal...

Calculate V and Z for methyl chloride at 100 ° C and 55bar for the ideal gas equation, by the equation of virial. Data: R = 83.14 cm 3 bar/molK; viral coefficient B equals -242.5 cm3/mol.

Using molar volume (stp) or the ideal gas law equation, determine the molar mass , g/mole,...

Using molar volume (stp) or the ideal gas law equation, determine the molar mass , g/mole, of each of the fillowin g. 1- 12.5 g of a gas that has a volume of 2.25 L at stp M = 2- 0.742 g of a gas that has a volume of 835 ml at 1.10 ATM and 19 degrees C. M=

Solve the following: a) Calculate ΔU for the irreversible isothermal compression of 1 mole of ideal...

Solve the following: a) Calculate ΔU for the irreversible isothermal compression of 1 mole of ideal gas at 290 K from an initial pressure of 3.2 KPa to a final pressure of 46 kPa by an constant external pressure of 46 kPa. Give your answer in kilojoules. b) Consider a reversible isothermal expansion (or compression) of 4.0 mole(s) of an ideal gas at 28°C from 6.5 atm to 3.0 atm. Calculate the amount of heat transferred to the system in...