Delisity UI the gas al 30°C and 200 kN/m2. 3.60 A mixture of gas has the following composition by volume: Methane = 80% Ethane = 12% %3D and Nitrogen = 8%. Calculate: (i) The composition of gas by weight%. (ii) Average molecular weight. (iii) Density of the gas mixture at 30°C and 750 mmHg. (iv) Specific gravity.

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Chapter1: Chemical Foundations
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Alnu tme rest Hitroģen (N2).
Calculate: (i) Composition of the gas by mass. (ii) Average molecular weight. (iii)
Density of the gas at 30°C and 200 kN/m².
3.60 A mixture of gas has the following composition by volume:
Methane = 80%
Ethane = 12%
and Nitrogen = 8%.
Calculate: (i) The composition of gas by weight%. (ii) Average molecular weight.
(iii) Density of the gas mixture at 30°C and 750 mmHg. (iv) Specific gravity.
3.61 A by-product of coke oven produces 30,000 m3 of gas per hour having the
following analysis:
C6H6 = 5%
CHs = 5%
CH4 = 40%
CO = 7%
H2 = 35%
CO2 = 5%
N2 = 3%
The gas leaves the oven at 1.4 atm and 390 °C. After cooling to 40°C, the benzene
and toluene are completely removed by absorption. Calculate: (i) Average
molecular weight of the gas entering the absorber. (ii) Weight of gas leaving the
oven per hour. (iii) Volumetric composition of the gas leaving the absorber. (iv)
Weight of benzene and toluene absorbed.
Transcribed Image Text:Alnu tme rest Hitroģen (N2). Calculate: (i) Composition of the gas by mass. (ii) Average molecular weight. (iii) Density of the gas at 30°C and 200 kN/m². 3.60 A mixture of gas has the following composition by volume: Methane = 80% Ethane = 12% and Nitrogen = 8%. Calculate: (i) The composition of gas by weight%. (ii) Average molecular weight. (iii) Density of the gas mixture at 30°C and 750 mmHg. (iv) Specific gravity. 3.61 A by-product of coke oven produces 30,000 m3 of gas per hour having the following analysis: C6H6 = 5% CHs = 5% CH4 = 40% CO = 7% H2 = 35% CO2 = 5% N2 = 3% The gas leaves the oven at 1.4 atm and 390 °C. After cooling to 40°C, the benzene and toluene are completely removed by absorption. Calculate: (i) Average molecular weight of the gas entering the absorber. (ii) Weight of gas leaving the oven per hour. (iii) Volumetric composition of the gas leaving the absorber. (iv) Weight of benzene and toluene absorbed.
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