Team:Cambridge/Human Practices

From 2010.igem.org

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(Applications)
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==Applications==
==Applications==
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[[Image:Home ec pic.jpg|400px|thumb|left|Bioluminescence at home]]
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[[Image:Home ec pic.jpg|350px|thumb|left|Bioluminescence at home]]
Our thoughts on using biological light sources led us to consider the concept of sustainability. Would our lighting be more sustainable and environmentally friendly than conventional devices? and where might it be useful? Bioluminescence is 'cold light' and much more efficient than conventional lighting. Despite this we find it unlikely that bioluminescence would completely replace current lighting and instead considered it's applications in remote off grid areas or complementing existing sources. Our biological systems would require only a chemical fuel source so would not be dependant on the electrical grid. Perhaps this fuel could come from waste products be that human waste or food waste. If a photosynthetic organism such as a suitable alga species was used then additional energy could be harnessed from sunlight. We might imagine a system where a bioreactor in the roof of a house - supplied with leftover foodstuffs - could pipe glowing algae through the rooms of the house during the night and across the roof during the day. We also considered the exciting prospect of bioluminescent trees lighting our roads and produced a 3D model of what this might look like as well as researching the [https://2010.igem.org/Team:Cambridge/Tools/Lighting feasibility] of such a project.
Our thoughts on using biological light sources led us to consider the concept of sustainability. Would our lighting be more sustainable and environmentally friendly than conventional devices? and where might it be useful? Bioluminescence is 'cold light' and much more efficient than conventional lighting. Despite this we find it unlikely that bioluminescence would completely replace current lighting and instead considered it's applications in remote off grid areas or complementing existing sources. Our biological systems would require only a chemical fuel source so would not be dependant on the electrical grid. Perhaps this fuel could come from waste products be that human waste or food waste. If a photosynthetic organism such as a suitable alga species was used then additional energy could be harnessed from sunlight. We might imagine a system where a bioreactor in the roof of a house - supplied with leftover foodstuffs - could pipe glowing algae through the rooms of the house during the night and across the roof during the day. We also considered the exciting prospect of bioluminescent trees lighting our roads and produced a 3D model of what this might look like as well as researching the [https://2010.igem.org/Team:Cambridge/Tools/Lighting feasibility] of such a project.

Revision as of 20:41, 27 October 2010