Deviation of Real Gases under Low Temp & High Pressure

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SUMMARY

The discussion focuses on the deviation of real gases, specifically carbon dioxide, nitrogen, and hydrogen, under low temperature and high pressure conditions. It establishes that carbon dioxide exhibits greater deviation due to its higher boiling point and liquefaction temperature compared to nitrogen and hydrogen. The relationship between ease of liquefaction and deviation is linked to the proximity of temperature and pressure to critical values, which for carbon dioxide are approximately 85°F for critical temperature and 850 lb/in² for critical pressure. When approaching these critical points, the Ideal Gas Law becomes inaccurate, necessitating the use of alternative equations of state like the Redlich-Kwong.

PREREQUISITES
  • Understanding of the Ideal Gas Law
  • Knowledge of critical temperature and pressure concepts
  • Familiarity with liquefaction processes
  • Basic grasp of equations of state, particularly Redlich-Kwong
NEXT STEPS
  • Research the Redlich-Kwong equation of state
  • Study the critical properties of various gases
  • Explore the concept of liquefaction in thermodynamics
  • Examine the limitations of the Ideal Gas Law under varying conditions
USEFUL FOR

Students and professionals in chemistry and physics, particularly those studying thermodynamics, gas behavior, and phase transitions, will benefit from this discussion.

siewwen168
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hello :-p

i want to ask about the deviation of real gases under low temperature and high pressure. :-p

my reference book states that carbon dioxide deviates more than nitrogen and hydrogen,this is because the order of boiling points of is decreasing from carbon dioxide to hydrogen.this is because carbon dioxide liquefies at a much higher temperature than nitrogen and hydrogen. :redface:

can anyone tell me what is the relationship between the ease of liquefaction and the deviation? o:)

anyway ,what is the meaning of liquefaction?is it something to do with it's boiling point?? :confused:
 
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"Liquifaction" (I think that's the correct spelling) just means turning something into a liquid. The Ideal Gas Law assumes that the space occupied by, and the forces between, the atoms/molecules of a gas can be ignored. It's a valid approach for low pressure and high temperature. But how does one define what is "low" and "high" for a particular gas? It has to do with how close the temp/pressure are to the "critical" values. The critical temperature (Tc) of a gas is that at which the gas cannot be liquified. For CO2 that's around 85 deg.F. The critical pressure (Pc) is the pressure at Tc. For CO2 it's around 850 lb/in^2. When one gets near Tc or Pc, the Ideal Gas Law is no longer accurate, and another equation of state, such as the Redlich- Kwong must be used. Hope this helped...
 
hi pack rat2,thanks for your help,i think your information is very useful to me.thanks a lot.
 

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