Team:UCL/about

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                <h4>Implementation in Industry</h4>
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                <p><figure> <img width=350 src="https://static.igem.org/mediawiki/2014/f/f7/BIoprocess.png" alt="" class="alignright"></figure>In the textile industry today, annual production of dyestuff amounts to millions of tons globally. Azo dyes represent two thirds of this value, a majority of which find their way to wastewater.
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Our idea is to conceive an integrated end-of-pipe method for detoxifying effluent streams of dye factories. The goal is to achieve a two-stage regimen in sequence to ensure optimal conditions for the degradation of azo dyes within a batch bioreactor system. This would be an attractive and effective approach to dealing with azo dye contamination of the environment. As a financial incentive, we are also looking at maximizing the profitability of various potential breakdown products. As a lucrative continuous-process alternative, we are investigating the application of microbial fuel cell technology to an aerobic bioreactor system, for simultaneously detoxifying azo dyes and generating electricity.
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Considering the potential for scalability, this method would present various economic and environmental advantages for industries that generate large amounts of dyestuff. This could also be spinned to become a modular bioprocess method for wastewater treatment of other toxic, normally recalcitrant chemicals. </p>
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Revision as of 15:06, 5 September 2014

Goodbye Azo Dye : iGEM 2014 - University College London

 

About our project

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University College London - Gower Street - London - WC1E 6BT - Biochemical Engineering Department
phone: +44 (0)20 7679 2000
email: ucligem2014@gmail.com

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