Team:Lyon-INSA-ENS/Project/Industrialization

From 2011.igem.org

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              Previous brainstorming<br><HR>
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The <big>“Cobalt Buster”</big> project is based on a modified Esherichia coli strain able to capture and concentrate cobalt from its environment.
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It is known that a <big>pulse of radioactive Cobalt emission occurs in the primary circuit of water </big>, during the maintenance of nuclear power plants when they open the reactor core. This pulse damages the ion exchange resin used to filter the water and reduce its radioactive level.
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That is why we first thought using the "Cobalt Buster" biofilter upstream of the ion exchange resin the rehabilitation of effluents in nuclear reactors, and especially in the primary circuit during the maintenance of nuclear power plants. <div class="contenugrand2";>
      
      
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<B style="line-height : 1.5em";>  To prepare safety issues we organised a public debate called 
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        “ Nuclear technology and Genetically Modified Organisms : Can scientists keep control? ”</a>.</B>
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Revision as of 11:51, 17 September 2011






Previous brainstorming



The “Cobalt Buster” project is based on a modified Esherichia coli strain able to capture and concentrate cobalt from its environment. It is known that a pulse of radioactive Cobalt emission occurs in the primary circuit of water , during the maintenance of nuclear power plants when they open the reactor core. This pulse damages the ion exchange resin used to filter the water and reduce its radioactive level. That is why we first thought using the "Cobalt Buster" biofilter upstream of the ion exchange resin the rehabilitation of effluents in nuclear reactors, and especially in the primary circuit during the maintenance of nuclear power plants.




Introduction



We present here our reflexion about safety issues of the “Cobalt Buster” project based on a modified Esherichia coli strain able to capture and concentrate cobalt from its environment. This reflexion based on the questions provided by iGEM safety judges, is presented in a form that we beleive more convenient.


Radioactive cobalt is released in water systems of nuclear power plants, that’s why we aim at using this strain as bio-filter for nuclear wastewater treatment to improve efficiency and reduce both nuclear waste volume and the costs of the treatment.


In this context we considered Researcher safety and, as we are aware that this project combines two technologies that scare a significant proportion of the population (GMO and nuclear power plant, as shown by a recent french survey resumed below), we paid particular attention in defining the potential risks for the Public and the Environnemt.


To prepare safety issues we organised a public debate called “ Nuclear technology and Genetically Modified Organisms : Can scientists keep control? ”.













ENS assystem Biomérieux INSA INSA