A formation contains 480,000.00 cubic feet of natural gas with apparent molecular weight of 24 lb/...

A gas mixture with an apparent molecular weight of 30 lb/lb mole is at 160°F and...

A gas mixture with an apparent molecular weight of 30 lb/lb mole is at 160°F and 800 psia, find its density, specific gravity, and mass (in lb mole and lb mass) if the volume is 106 ft3. Also, find its volume at the standard conditions

A gas mixture with an apparent molecular weight of 30 lb/lb mole is ar 160 deg...

A gas mixture with an apparent molecular weight of 30 lb/lb mole is ar 160 deg F and 800 psia, find the density, specific gravity, and mass in (lb mole and lb mass) if volume is 10^6 ft^3. And find volume at standard conditions.

The analysis on a mass basis of an ideal gas mixture at 30°F, 15 lbf/in.2 is...

The analysis on a mass basis of an ideal gas mixture at 30°F, 15 lbf/in.2 is 40% CO2, 10% CO, and 50% O2. Determine: (a) the analysis in terms of mole fractions. (b) the apparent molecular weight of the mixture. (c) the partial pressure of each component, in lbf/in.2 (d) the volume occupied by 10 lb of the mixture, in ft3.

A flow of methane is 8,000 scfm (standard cubic feet per minute). What is the mass...

A flow of methane is 8,000 scfm (standard cubic feet per minute). What is the mass flow rate in lbm/hour? What is the actual volumetric flow if the actual conditions are 112°F and 0.8 atm? Standard conditions are 1 atm and 59°F. Please report your answer to 4 significant digits. Assume the ideal gas law applies. The molecular weight of methane to 5 significant digits is 16.042 g/mol.

1. You purchase 9.3 gallons of gasoline. Assume that the properties of gasoline are Molecular weight...

1. You purchase 9.3 gallons of gasoline. Assume that the properties of gasoline are Molecular weight (Mw) = 113, Specific Gravity (SG) = 0.70. Remember that the density of water is 62.4 lbm/ft^3. What is the weight in lbf of the gasoline? and how many g ? moles are there in this quantity of gasoline? 2. Recall that the ideal gas law is P V = nRT where P is pressure, V is volume, n is number of moles, R...

Data for carbon dioxide: Molecular weight:44.0 Heat capacity of gas phase: 0.036+4.23 x10-5T   (in kJ/moleoC, T is...

Data for carbon dioxide: Molecular weight:44.0 Heat capacity of gas phase: 0.036+4.23 x10-5T   (in kJ/moleoC, T is in oC) Viscosity                                 Pr                    k (W/m K) 180oC2.13 x10-5kg/(m s)                  0.721               0.029 130oC  1.93x10-5kg/(m s)                  0.738               0.025   80oC  1.72x10-5kg/(m s)                  0.755               0.020 Approximate density: 2.0 kg/m3 Data for water: Molecular weight:18.0 Heat capacity for liquid water: 0.0754 kJ/mole oC   Viscosity: Viscosity                                 Pr                    k (W/m K) 180oC139 x10-6kg/(m s)                   0.94                 0.665 130oC  278x10-6kg/(m s)                   1.72                 0.682   80oC  472x10-6kg/(m s)                   3.00                 0.658 Ideal gas constant: 0.08206 L atm/(mol K) Carbon dioxide, with flow rate of 0.10 kg/s, is to be cooled from 180 oC to 80...