QUESTION 1 [ 10 MARKS) The gravimetric analysis of a gas mixture is 50% N, 40%...
QUESTION 1 [ 10 MARKS] The gravimetric analysis of a gas mixture is 50% N2, 40% CO2 and 10% CH4 with a temperature of 40°C and pressure of 1 bar. Calculate, 1.1 the partial pressure of each component, in bar. 1.2 the molar mass for the gas mixture, in kg/kmol. 1.3 the mass by 4 m of mixture, in kg. QUESTION 2 [ 10 MARKS A vessel having a volume of 3 m’initially contains a mixture of Triatomic at 21°C,...
QUESTION 1 [10 MARKS] The gravimetric analysis of a gas mixture is 50% N2, 40% CO2 and 10% CH with a temperature of 40°C and pressure of 1 bar. Calculate, 1.1 the partial pressure of each component, in bar. 1.2 the molar mass for the gas mixture, in kg/kmol. 1.3 the mass by 4 m of mixture, in kg.
Thermodynamics The gravimetric analysis of a gas mixture is 50% N2, 40% CO2 and 10% CH4 with a temperature of 40°C and pressure of 1 bar. Calculate, 1.1 the partial pressure of each component, in bar. 1.2 the molar mass for the gas mixture, in kg/kmol. 1.3 the mass by 4 m? of mixture, in kg.
The gravimetric analysis of a gas mixture is 50% N., 40% CO, and 10% CH, with a temperature of 407C and pressure of I bur Calculate 1.I the partial pressure of each component, in bar. 1.2 the molar mass for the gas mixture, in kg/kmol. 1.3 the mass by 4 m' of mixture, in ke
A vessel having a volume of 3 m’ initially contains a mixture of Triatomic at 21°C, 2 bar consisting of 23% SO2 and 77% CO2 on a molar basis. Triatomic is allowed to flow into the vessel until the pressure is 4 bar. If the final temperature of the mixture within the vessel is 300 K, calculate the mass of each component present, in kg.
QUESTION 2 [ 10 MARKS) A vessel having a volume of 3 m' initially contains a mixture of Triatomic at 21°C, 2 bar consisting of 23% SO, and 77% CO on a molar basis. Triatomic is allowed to flow into the vessel until the pressure is 4 bar. If the final temperature of the mixture within the vessel is 300 K, calculate the mass of each component present, in kg
QUESTION 2 [ 10 MARKS] A vessel having a volume of 3 m initially contains a mixture of Triatomic at 21°C, 2 bar consisting of 23% SO2 and 77% CO2 on a molar basis. Triatomic is allowed to flow into the vessel until the pressure is 4 bar. If the final temperature of the mixture within the vessel is 300 K, calculate the mass of each component present, in kg. Table Properties of some common gases at 300K e R...
2. The molar analysis of an ideal gas mixture entering a turbine is as follows: 4% CO2, 5% H20, 13.8% 02, and 77.2% N2 at 900 K, 10 bar. The mixture expands adiabatically to 400 K, 1 bar. Neglecting kinetic and potential effects, determine a. The gravimetric analysis b. The apparent molecular weight of the mixture, in kg/kmol c. The partial pressures of each of the components of the gas mixture entering and exiting the turbine, d. e. in bar...
5. a) The composition of a mixture of nitrogen and carbon dioxide gases is 30%-N, and 70%- CO2 by mole fraction. What is the mass fraction of the nitrogen constituent?b) Nitrogen (N2) at 150 kPa, 40°C occupies a closed, rigid container having a volume of 1 m3. If 2 kg of oxygen (O2) is added to the container, what is the molar analysis of the resulting mixture? If the temperature remains constant, what is the pressure of the mixture, in...
- Question 1 (a) In an ideal gas mixture, the partial pressure of a constituent gas is: 25 points inversely proportional to the mole fraction inversely proportional to the square of the mole fraction equal to the mole fraction directly proportional to the mole fraction (b) The value of the universal molar gas constant is: 8.3145 J/(kmol) 8.3145 kJ/(kg) 8.3145 J/(kg) 8314.5 J/(kmol K) (c) A mixture of ideal gases consists of 4.42 kg of carbon monoxide (CO) and 5.91...