How Do You Calculate Pressure in Supercritical Water Syntheses?

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Discussion Overview

The discussion revolves around calculating the pressure in a sealed reaction vessel during supercritical water syntheses. Participants explore the relationship between fill level, temperature, and pressure, particularly at supercritical conditions.

Discussion Character

  • Technical explanation
  • Exploratory
  • Homework-related

Main Points Raised

  • One participant seeks to calculate the pressure inside a partially filled reaction vessel at supercritical temperatures, emphasizing the importance of staying within safe limits.
  • Another participant confirms the scenario involves a partially filled closed vessel and seeks clarification on the initial conditions, including the presence of air or water vapor in the headspace.
  • It is noted that the headspace is filled with air, and the contribution of air to the final pressure may be minimal, suggesting the use of the ideal gas law for estimation.
  • A participant introduces the Steam Tables as a potential resource for determining pressure, indicating that specific volume at the final temperature can be used to find pressure values.
  • There is a suggestion to look up specific volume in the superheated water vapor tables at the target temperature to determine the pressure due to water.

Areas of Agreement / Disagreement

Participants generally agree on the approach to use Steam Tables for pressure calculation, but there is no consensus on the exact method or the influence of air on the final pressure.

Contextual Notes

The discussion includes assumptions about the behavior of gases and liquids under supercritical conditions, as well as the use of specific tables for pressure determination, which may depend on the accuracy of the data and interpolation methods.

jman1990
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Hello All,

I am doing supercritical water syntheses in a sealed reaction container. I am looking for a way to calculate the exact pressure inside the reaction vessel as a function of the fill level and the temperature. This is to make sure I stay within the safe limits of my reaction vessel.
 
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You are starting with a partially filled closed vessel at some temperature, and you are trying to find the pressure at a supercritical temperature, correct?
 
Chestermiller said:
You are starting with a partially filled closed vessel at some temperature, and you are trying to find the pressure at a supercritical temperature, correct?

That's correct. I have a 75 mL vessel that is partially filled with water (the actual fill level varies between 50%-70% depending on the reaction). I am bringing the vessel to 400 degrees C, which is just over the critical point.
 
jman1990 said:
That's correct. I have a 75 mL vessel that is partially filled with water (the actual fill level varies between 50%-70% depending on the reaction). I am bringing the vessel to 400 degrees C, which is just over the critical point.
Is there air initially in the head space or just water vapor?

Chet
 
Yes, the remaining head space is filled with air, the only water vapor present would be due to the vapor pressure at ambient conditions.
 
jman1990 said:
Yes, the remaining head space is filled with air, the only water vapor present would be due to the vapor pressure at ambient conditions.
At these conditions, I don't think that the air would add much to the final pressure, and we can estimate that using the ideal gas law. Are you familiar with the use of the Steam Tables?

Chet
 
I am not.

I am just beginning to work under these conditions and I am the first in our lab to do so, so this is pretty new to all of us.
 
jman1990 said:
I am not.

I am just beginning to work under these conditions and I am the first in our lab to do so, so this is pretty new to all of us.
Check this out, and then please get back with me:
che.sut.ac.ir/People%5CCourses%5C76%5CSteam%20Table.pdf

I'll tell you how to use the table to get what you want.

Chet
 
Thanks for the link.

Okay, I'm looking at the tables. I'm guessing I want the table B.4 (superheated water vapor)?

How can I use this information to back out the pressure of my system?

Thanks for the help.
 
  • #10
If you have 50% fill to start with, the specific volume of the gas at the final temperature will be 0.002 m3/kg, right? So, look up in the table 0.002 m3/kg in the superheated water vapor tables at 400 C? That's your pressure due to the water. (You may have to interpolate in the table).

Chet
 
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  • #11
I see, I get what you're saying.

Thanks a lot for the helps, that's exactly what I need.
 

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