Line 269: | Line 269: | ||
<!-- 1-1 --> | <!-- 1-1 --> | ||
<h6 style='color:#bc0101; font-family:"Roboto Mono", monospace;'> | <h6 style='color:#bc0101; font-family:"Roboto Mono", monospace;'> | ||
− | R=Rmax.i | + | R=Rmax.i<sup>n</sup>/(ki*exp(i.m)+i<sup>n</sup>) |
</h6> | </h6> | ||
Line 288: | Line 288: | ||
<th>i</th> | <th>i</th> | ||
<th>irradiance</th> | <th>irradiance</th> | ||
− | <th>uE/m | + | <th>uE/m<sup>2</sup></th> |
<th>-</th> | <th>-</th> | ||
</tr> | </tr> | ||
Line 300: | Line 300: | ||
<th>ki</th> | <th>ki</th> | ||
<th>productive coefficient</th> | <th>productive coefficient</th> | ||
− | <th>uE/(m | + | <th>uE/(m<sup>2</sup>)*s</th> |
<th>174</th> | <th>174</th> | ||
</tr> | </tr> | ||
Line 306: | Line 306: | ||
<th>m</th> | <th>m</th> | ||
<th>constant</th> | <th>constant</th> | ||
− | <th> (m | + | <th> (m<sup>2</sup>)*s /uE</th> |
<th>0.0022</th> | <th>0.0022</th> | ||
</tr> | </tr> | ||
Line 335: | Line 335: | ||
<tr> | <tr> | ||
<th>R</th> | <th>R</th> | ||
− | <th> | + | <th>CO<sub>2</sub> productive rate</th> |
<th>-</th> | <th>-</th> | ||
<th>-</th> | <th>-</th> | ||
Line 476: | Line 476: | ||
<table> | <table> | ||
<tr> | <tr> | ||
− | <th></th> | + | <th>Symbol</th> |
− | <th scope="col"></th> | + | <th scope="col">Definition</th> |
− | <th scope="col"&></th> | + | <th scope="col"&>Unit</th> |
− | <th scope="col"&></th> | + | <th scope="col"&>Value</th> |
</tr> | </tr> | ||
<tr> | <tr> | ||
<th>U</th> | <th>U</th> | ||
<th>specific growth rate</th> | <th>specific growth rate</th> | ||
− | <th> day | + | <th>day<sup>-1</sup></th> |
− | <th></th> | + | <th>-</th> |
</tr> | </tr> | ||
<tr> | <tr> | ||
<th>Umax</th> | <th>Umax</th> | ||
<th>maximum specific growth rate</th> | <th>maximum specific growth rate</th> | ||
− | <th> day | + | <th>day<sup>-1</sup></th> |
<th></th> | <th></th> | ||
</tr> | </tr> |
Revision as of 11:27, 16 October 2017
Modeling is an extremely important part to our project, because it helps us accurately check and predict the results of the experiments, which are worked in the wet lab. In our project, there are two essential types of microalgae that play very important roles, Synechococcus PCC7942 and Chlorella vulgaris. The following will show our success in modeling.
Synechococcus PCC7942
The modeling from figure 1 to figure 5 belongs to the experiments of Synechococcus PCC7942 pigments.
Chlorella vulgaris
The modeling from figure 6 to figure 12 belongs to the experiments of Chlorella vulgaris nitrogen starvation.
Modeling is an extremely important part to our project, because it helps us accurately check and predict the results of the experiments, which are worked in the wet lab. In our project, there are two essential types of microalgae that play very important roles, Synechococcus PCC7942 and Chlorella vulgaris. The following will show our success in modeling.
Synechococcus PCC7942
The modeling from figure 1 to figure 5 belongs to the experiments of Synechococcus PCC7942 pigments.
Chlorella vulgaris
The modeling from figure 6 to figure 12 belongs to the experiments of Chlorella vulgaris nitrogen starvation.