Difference between revisions of "Team:ECUST/Part/Reactor"

Revision as of 16:52, 31 October 2017

We found that the traditional light reactor source was mainly external light plate or built-in lamp, each of which had a defect. So we built a photo bioreactor(Fig.1) that had light source placed in the agitator.

Fig. 1 Structure of lightbioreactor

Taking absorption and scattering of lights into consideration, we used cornet model (raised by cornet in 1992) to describe the light attenuation in lightbioreactor. This model was based on two hypothesis: 1)lights in medium were isotropic; 2)Absorption and scattering of light were respectively determined by two independent coefficient (Ea and Es). A simplified function of cornet model is:

I: illuminance of different points in photobioreactor
I ₀: illuminance of light source=15000lux
X: cell concentration=5.4g/L
r: optical path, in centimeter
Ea: absorption coefficient
Es: scattering coefficient

After nonlinear fitting of light intensity data from different cell concentrations and different optical paths by MATLAB, absorption coefficient (0.0014 m2/g) and scattering coefficient (0.9002 m2/g) were available.

The relation between luminous flux(Φ) of a point that was r centimeters away from light source and illuminance(I) of the same point could be given by this formula:

According to Beer-Lambert Law,

ε^[1]: molar extinction coefficient=101000 M^-1 cm^-1
c: concentration of fluorescent protein=2.32×10^-9 M

So the luminous flux absorbed by fluorescent protein was:

The luminous flux and the luminous power(PsYFP2) fitted the following formula[2]:

Km ^[2]: the ability of human eyes to sense light=683.002 lm/W
V(517)^[2]: luminosity function when the wavelength of light is 517 nanometre.

The energy of one photon(517nm) is 3.84487×10-19 joules so number of photons(N) that fluorescent protein could absorb per second was:

[1] Kremers G J, Goedhart J, van Munster E B, et al. Cyan and yellow super fluorescent proteins with improved brightness, protein folding, and FRET Förster radius.[J]. Biochemistry, 2006, 45(21):6570.
[2] https://en.wikipedia.org/wiki/Luminosity_function#cite_note-Charles2003-5

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-       <p style="color: black;">Fig. 1 Structure of lightbioreactor</p>
+       <p style="color: black; font-size: 8px;">Fig. 1 Structure of lightbioreactor</p>
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    I: illuminance of different points in photobioreactor <br>
    I <sub>0</sub>: illuminance of light source=15000lux<br>
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    </div>
    </center>
-   <br><br>
+   <br><br><br>
    <p>The relation between luminous flux(Φ) of a point that was r centimeters away from light source and illuminance(I) of the same point could be given by this formula:</p>
    <center>
    <div class="row">
-       <img src="https://static.igem.org/mediawiki/2017/0/02/1GS5.png" width="300px;">
+       <img src="https://static.igem.org/mediawiki/2017/0/02/1GS5.png" height="200px;">
-   </div>
+   </div>  <br>
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-   <p>According to Beer-Lambert Law, </p><br>
+   <p>According to Beer-Lambert Law, </p>
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-   ε<sup>[1]</sup>: molar extinction coefficient=101000 M<sup>-1</sup> cm<sup>-1</sup>
+   ε<sup>[1]</sup>: molar extinction coefficient=101000 M<sup>-1</sup> cm<sup>-1</sup> <br>
    c: concentration of fluorescent protein=2.32×10<sup> -9 </sup> M
    </p><br><br>
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    </div>
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+   <p style="color: black; font-size: 8px;">
      Km <sup>[2]</sup>: the ability of human eyes to sense light=683.002 lm/W <br>
      V(517)<sup>[2]</sup>: luminosity function when the wavelength of light is 517 nanometre.<br>
    </p>
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      </div><br><br>
    </center>

Difference between revisions of "Team:ECUST/Part/Reactor"

Revision as of 16:52, 31 October 2017

Reference