Difference between revisions of "Team:NRP-UEA-Norwich"

 
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<strong>The problem</strong><br/> Global climate change and fuel poverty are some of the biggest challenges facing energy production today. Using renewable energy sources to increase global energy production in a sustainable way is therefore vital. However, current technologies have many problems with cost, for example those stemming from intermittency Go to the background page under project for more information.
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<strong><span style="color:#739ede; text-decoration;">The Problem</span></strong><br/> Global climate change and fuel poverty are some of the biggest challenges facing energy production today. Using renewable energy sources to increase global energy production in a sustainable way is vital to solving this issue. However current technologies have many problems with cost, for example those stemming from intermittency. Go to the background page under project for more information. <br />
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<strong>The Solution</strong><br/> To reduce the energy wasted from intermittency problems with renewable energy sources (such as wind and solar) there has been a lot of research focusing on trying to convert this energy into hydrogen to be stored and used later. Biowire’s project uses synthetic biology techniques to engineer the bacterium <i>Shewanella oneidensis</i>. This bacterium has a ‘nanowire’ which can channel electrons into the cell and to the hydrogenase enzymes which can then produce hydrogen.
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<strong><span style="color:#739ede; text-decoration;">The Solution</span></strong><br/>
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<span> <img src="https://static.igem.org/mediawiki/2016/0/00/T--NRP-UEA-Norwich--HydrogenaseGoals.jpg" height="300px" align="right"/> To reduce the energy wasted from intermittency problems with renewable energy sources (such as wind and solar) there has been a lot of research focusing on trying to convert this energy into fuels such as hydrogen, for storage and later use. Biowire’s project uses synthetic biology techniques to engineer the bacterium <i>Shewanella oneidensis</i> MR-1. This bacterium has a ‘nanowire’ which can channel electrons into the cell and to hydrogenase enzymes which can then produce hydrogen.</span><br />
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<strong>The goals</strong><br/> The overall aim of Biowire’s project is to explore the possibility of using <i>S. oneidensis</i> as an energy storage system. By trying to increase the hydrogen output of <i>S. oneidensis</i> in comparison to the wild type, we are hoping to make this hydrogen production system a more attractive and efficient bioenergy solution to the challenges facing energy production.
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<strong><span style="color:#739ede; text-decoration;">The Goals</span></strong><br/> The overall aim of Biowire’s project is to explore the possibility of using <i>S. oneidensis</i> MR-1 as an bio-catalyst in an energy storage system. By trying to increase the hydrogen output of <i>S. oneidensis</i> MR-1 we are hoping to make this hydrogen production system a more attractive and efficient bioenergy solution to the challenges facing energy production. <br /><br />
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<div id="introPlayVideoButton">Watch a short video about our daily lives</div>
 
<div id="introPlayVideoButton">Watch a short video about our daily lives</div>
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<div class="learnSection" style="background-image:url(https://static.igem.org/mediawiki/2016/2/23/T--NRP-UEA-Norwich--LearnShew.jpg); background-size:cover;"><div class="learnText">Virtual Reality</div><a href="https://2016.igem.org/Team:NRP-UEA-Norwich/Practices/VirtualReality" class="learnBoxLink"></a></div>
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<div class="learnSection" style="background-image:url(https://static.igem.org/mediawiki/2016/f/f0/T--NRP-UEA-Norwich--LearnGolden.png); background-size:cover;"><div class="learnText">Golden Gate</div><a href="https://2016.igem.org/Team:NRP-UEA-Norwich/GoldenGate" class="learnBoxLink"></a></div>
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<div class="learnSection" style="background-image:url(https://static.igem.org/mediawiki/2016/a/a5/T--NRP-UEA-Norwich--peakgraph.jpg); background-size:cover;"><div class="learnText">Shewanella</div><a href="https://2016.igem.org/Team:NRP-UEA-Norwich/Background#shewPart" class="learnBoxLink"></a></div>
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<div class="learnSection" style="background-image:url(https://static.igem.org/mediawiki/2016/4/46/T--NRP-UEA-Norwich--LearnComic.png); background-size:cover;"><div class="learnText">Comic</div><a href="https://2016.igem.org/Team:NRP-UEA-Norwich/Practices/Comic" class="learnBoxLink"></a></div>
 
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Latest revision as of 22:23, 19 October 2016

NRP-UEA-NORWICH iGEM

BioWire

NRP-UEA Norwich
The Problem
Global climate change and fuel poverty are some of the biggest challenges facing energy production today. Using renewable energy sources to increase global energy production in a sustainable way is vital to solving this issue. However current technologies have many problems with cost, for example those stemming from intermittency. Go to the background page under project for more information.
The Solution
To reduce the energy wasted from intermittency problems with renewable energy sources (such as wind and solar) there has been a lot of research focusing on trying to convert this energy into fuels such as hydrogen, for storage and later use. Biowire’s project uses synthetic biology techniques to engineer the bacterium Shewanella oneidensis MR-1. This bacterium has a ‘nanowire’ which can channel electrons into the cell and to hydrogenase enzymes which can then produce hydrogen.

The Goals
The overall aim of Biowire’s project is to explore the possibility of using S. oneidensis MR-1 as an bio-catalyst in an energy storage system. By trying to increase the hydrogen output of S. oneidensis MR-1 we are hoping to make this hydrogen production system a more attractive and efficient bioenergy solution to the challenges facing energy production.

Watch a short video about our daily lives

Learn About

Virtual Reality
Golden Gate
Shewanella
Comic

Sponsors