Vapor density in kg/m3 in CO2 absorber

AI Thread Summary
To calculate vapor density for the gas mixture exiting a Steam Methane Reformer, the total density can be determined using the partial pressures of each gas component. The total pressure is the sum of these partial pressures, assuming equal temperatures for all gases. The Ideal Gas Law can be applied, treating the mixture as an ideal gas with a compressibility factor of 1. The specific composition includes 75.22% H2, 19.27% CO2, and smaller amounts of CH4, CO, N2, and water. Utilizing these methods should provide an accurate calculation of the vapor density.
timvk
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hello all,

I got a bit of a problem. I want to calculate the vapor density (kg/ m3 or lbs/ ft3) with the following facts:

temp: 40C
pressure : 20-31 bar
flow rate: 1000-10000 kmole/ hr
MW avg: 10-12 g/ mol (it is a mixture of H2, CO, CO2, CH4, H2O)> mostly H2


I wanted to know which formula/ method I have to use to calculate the vapor density. Hope someone can help me

Cheers,

Tim
 
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maybe it makes it more realistic when I say this:

It is about a exit gas from a Steam Methane Reformer after water gas shifts.

The mol% of the exact compositions are:
75.22% H2
19.27% CO2
4.22% CH4
0.30% CO
0.98% N2
rest is water

temp is 40C
pressure: 26.5 bar
4640 kmole/ hr

Still hope someone could help with this problem
 
Hi Tim,
You should be able to calculate total density from the partial pressures. Total pressure is equal to the sum of the partial pressures of each constituent. Assume also the temperature of all the gasses in the mix are equal.

See if this helps at all: http://www.mikeblaber.org/oldwine/chm1045/notes/Gases/Mixtures/Gases06.htm
 
Thanks,

I will look it up in more detail. For now I used the Ideal gas law (assumed it is an ideal gas with compressibility of 1)

cheers,
 

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