Difference between revisions of "Team:Aalto-Helsinki/Modeling propane"

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<h2> Introduction </h2>
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<p>Propane is a commonly used, convenient and clean-burning fuel, currently produced from non-renewable sources. Our project is about producing propane in bacteria, paving way for its sustainable production from renewable biomass. Ultimately, the pathway could be transferred to cyanobacteria, producing propane from CO2 and solar energy. </p>
 
<p>Propane is a commonly used, convenient and clean-burning fuel, currently produced from non-renewable sources. Our project is about producing propane in bacteria, paving way for its sustainable production from renewable biomass. Ultimately, the pathway could be transferred to cyanobacteria, producing propane from CO2 and solar energy. </p>
  
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<h2>Building the model / our pathway</h2>
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<p>Here text about forming the model, assumed kinetics and constants and all the assumptions. Possibly some division of these also under this header.</p>
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<h2>Bottlenecks</h2>
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<h3></h3>
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<p>Here text about how we searched for the bottlenecks, our results and how they affected labwork. Possible subcategories on these.</p>
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<h2>Other modeling of the pathway</h2>
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<p>Other stuff we should mention that doesn't fit under above two headers or under the one below? Perhaps the actual values of estimated propane production here?</p>
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<h2>Restrictions of our model</h2>
  
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<p>Here the text explaining shortcomings of our models and what are the possible reasons they are not fully feasible.</p>
  
 
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Revision as of 11:02, 23 July 2015

Under construction

Introduction

Propane is a commonly used, convenient and clean-burning fuel, currently produced from non-renewable sources. Our project is about producing propane in bacteria, paving way for its sustainable production from renewable biomass. Ultimately, the pathway could be transferred to cyanobacteria, producing propane from CO2 and solar energy.

In our mathematical model our goal is to grasp the important concepts underlying the experiments made in the lab, and to see how those concepts could help us produce more propane. By having a better understanding of the ideas that govern our project, we could see the influence of each compound in the reaction pathway and have a basis to make decisions that would have a long term impact in our results.

Building the model / our pathway

Here text about forming the model, assumed kinetics and constants and all the assumptions. Possibly some division of these also under this header.

Bottlenecks

Here text about how we searched for the bottlenecks, our results and how they affected labwork. Possible subcategories on these.

Other modeling of the pathway

Other stuff we should mention that doesn't fit under above two headers or under the one below? Perhaps the actual values of estimated propane production here?

Restrictions of our model

Here the text explaining shortcomings of our models and what are the possible reasons they are not fully feasible.