Team:ETH Zurich/xylene

From 2011.igem.org

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(How we calculated the concentration of m-xylene in the medium...)
 
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4. For the oil/xylene mixtures we used Raoult's law
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4. For the oil/xylene mixtures we assumed that paraffin oil has a vapor pressure of 0 and used Raoult's law
[[File:Raoult's law.png|600px|left|thumb]]
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{|border="1" align="left" style="text-align:center;"
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|xylene in oil in %
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|concentration of xylene in LB [mM]
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|-
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|100
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|3.1
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|-
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|50
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|1.55
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|-
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|25
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|0.775
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|-
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|15
 +
|0.465
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|-
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|10
 +
|0.31
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|-
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|7.5
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|0.233
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|-
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|5
 +
|0.155
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|-
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|2.5
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|0.078
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|-
 +
|1
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|0.031
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|-
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|0.75
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|0.023
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|-
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|0.5
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|0.016
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|-
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|0
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|0
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|}
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== References ==
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= References =
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<span id="Ref1"> [1] Perry’s Chemical Engineers Handbook 8th Edition]</span>
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<span id="Ref1"> [1] Perry’s Chemical Engineers Handbook 8th Edition</span>
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<span id="Ref1">[2] CRC Handbook of Chemistry and Physics, 92nd Edition, p.5-189]</span>
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<span id="Ref1">[2] CRC Handbook of Chemistry and Physics, 92nd Edition, p.5-189</span>
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Latest revision as of 21:54, 28 October 2011

Can you feel the smoke tonight?
 

Contents

How we calculated the concentration of m-xylene in the medium...

1. We assumed that 5 ml xylene is enough to saturate the gas phase in the Erlenmeyer flask.

The vapor pressure was calculated at 37 °C:
Dampfdruck.png


with the following C1-C5 values:
ETH Dampfdruck c.png


2. The Henry´s constant at 37 °C can be calculated by the Van´t Hoff equation from the literature value at 25°C

Henry constante.png


3. By Henry´s law we calculated the concentration of xylene in the medium

Henry law.png


4. For the oil/xylene mixtures we assumed that paraffin oil has a vapor pressure of 0 and used Raoult's law

Raoult's law.png


xylene in oil in % concentration of xylene in LB [mM]
100 3.1
50 1.55
25 0.775
15 0.465
10 0.31
7.5 0.233
5 0.155
2.5 0.078
1 0.031
0.75 0.023
0.5 0.016
0 0


ETH Back.png


References

[1] Perry’s Chemical Engineers Handbook 8th Edition

[2] CRC Handbook of Chemistry and Physics, 92nd Edition, p.5-189

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